diff --git a/docs/source/sources.rst b/docs/source/sources.rst
index 3ab48fc50..bc808b755 100644
--- a/docs/source/sources.rst
+++ b/docs/source/sources.rst
@@ -41,6 +41,13 @@ SBML extraction (:py:mod:`mira.sources.sbml`)
     :members:
     :show-inheritance:
 
+SBML Qual extraction (:py:mod:`mira.sources.sbml.qual_api`)
+-----------------------------------------------------------
+.. automodule:: mira.sources.sbml.qual_api
+    :members:
+    :show-inheritance:
+
+
 BioModels client (:py:mod:`mira.sources.biomodels`)
 ---------------------------------------------------
 .. automodule:: mira.sources.biomodels
diff --git a/mira/modeling/amr/regnet.py b/mira/modeling/amr/regnet.py
index b7f7d7af4..bf128d0eb 100644
--- a/mira/modeling/amr/regnet.py
+++ b/mira/modeling/amr/regnet.py
@@ -5,7 +5,6 @@
 __all__ = ["AMRRegNetModel", "ModelSpecification",
            "template_model_to_regnet_json"]
 
-
 import json
 import logging
 from copy import deepcopy
@@ -47,7 +46,7 @@ def __init__(self, model: Model):
             model.template_model.annotations.name else "Model"
         self.model_description = model.template_model.annotations.description \
             if model.template_model.annotations and \
-            model.template_model.annotations.description else self.model_name
+               model.template_model.annotations.description else self.model_name
 
         self.rates = []
         self.observables = []
@@ -84,7 +83,7 @@ def __init__(self, model: Model):
             self.states.append(state_data)
             self._states_by_id[name] = state_data
 
-        idx = 0
+        edge_id = 1
         # It's possible that something is naturally degraded/replicated
         # by multiple transitions so we need to collect and aggregate rates
         intrinsic_by_var = defaultdict(list)
@@ -132,47 +131,70 @@ def __init__(self, model: Model):
             # a regular transition in the regnet framework
             # Possibilities are:
             # - ControlledReplication / GroupedControlledProduction
-            # - ControlledDegradation
+            # - ControlledDegradation / GroupedControlledDegradation
+            # - ControlledProduction if the control and produced concept are not the same
             else:
-                tid = f"t{idx + 1}"
-                transition_dict = {'id': tid}
                 # If we have multiple controls then the thing that replicates
                 # is both a control and a produced variable.
                 if len(transition.control) > 1:
-                    indep_ctrl = {c.key for c in transition.control} - \
-                        {transition.produced[0].key}
-                    # There is one corner case where both controllers are also
-                    # the same as the produced variable, in which case.
-                    if not indep_ctrl:
-                        indep_ctrl = {transition.produced[0].key}
-                    transition_dict['source'] = vmap[sorted(indep_ctrl)[0]]
+                    # GroupedControlledProduction
+                    if is_production(transition.template) or is_replication(
+                        transition.template
+                    ):
+                        indep_ctrl = {c.key for c in transition.control} - {
+                            transition.produced[0].key
+                        }
+                        # There is one corner case where both controllers are also
+                        # the same as the produced variable, in which case.
+                        if not indep_ctrl:
+                            indep_ctrl = {transition.produced[0].key}
+
+                        for index, controller in enumerate(indep_ctrl):
+                            self.create_edge(
+                                transition,
+                                vmap[controller],
+                                vmap[transition.produced[0].key],
+                                edge_id,
+                                False if index == 0 else True
+                            )
+
+                            edge_id += 1
+                    else:
+                        # GroupedControlledDegradation
+                        indep_ctrl = {c.key for c in transition.control} - {
+                            transition.consumed[0].key
+                        }
+                        # There is one corner case where both controllers are also
+                        # the same as the consumed variable, in which case.
+                        if not indep_ctrl:
+                            indep_ctrl = {transition.consumed[0].key}
+
+                        for index, controller in enumerate(indep_ctrl):
+                            self.create_edge(
+                                transition,
+                                vmap[controller],
+                                vmap[transition.consumed[0].key],
+                                edge_id,
+                                False if index == 0 else True
+                            )
+
+                            edge_id += 1
                 else:
-                    transition_dict['source'] = vmap[transition.control[0].key]
-                transition_dict['target'] = \
-                    vmap[transition.consumed[0].key if
-                         transition.consumed else transition.produced[0].key]
-                transition_dict['sign'] = (is_production(transition.template) or
-                                           is_replication(transition.template))
-
-                # Include rate law
-                if transition.template.rate_law:
-                    rate_law = transition.template.rate_law.args[0]
-                    pnames = transition.template.get_parameter_names()
-                    # We just choose an arbitrary one deterministically
-                    rate_const = sorted(pnames)[0] if pnames else None
-
-                    transition_dict['properties'] = {
-                        'name': tid,
-                        'rate_constant': rate_const,
-                    }
-                    self.rates.append({
-                        'target': tid,
-                        'expression': str(rate_law),
-                        'expression_mathml': expression_to_mathml(rate_law)
-                    })
-
-                self.transitions.append(transition_dict)
-                idx += 1
+                    # ControlledProduction if produced and controller are not the same
+                    # ControlledDegradation
+                    target = vmap[
+                        transition.consumed[0].key
+                        if transition.consumed
+                        else transition.produced[0].key
+                    ]
+                    self.create_edge(
+                        transition,
+                        vmap[transition.control[0].key],
+                        target,
+                        edge_id,
+                        False
+                    )
+                    edge_id += 1
 
         for var, rates in intrinsic_by_var.items():
             rate_law = sum(rates)
@@ -224,6 +246,55 @@ def __init__(self, model: Model):
             self.time = None
         add_metadata_annotations(self.metadata, model)
 
+    def create_edge(self, transition, source, target, edge_id, duplicate):
+        """Create and append a transition dictionary to the list of transitions
+
+        Parameters
+        ----------
+        transition : Transition
+            The Transition object
+        source : str
+            The name of the source of the transition
+        target : str
+            The name of the target of the transition
+        edge_id : int
+            The id to assign to the transition
+        duplicate : bool
+            A boolean that tells us whether the transition we are processing has already been
+            processed at least once. This is for the purpose of not adding duplicate rate laws
+            to the output amr.
+        """
+        tid = f"t{edge_id}"
+        transition_dict = {"id": tid}
+        transition_dict["source"] = source
+        transition_dict["target"] = target
+        transition_dict["sign"] = is_production(
+            transition.template
+        ) or is_replication(transition.template)
+
+        #
+        if transition.template.rate_law:
+            # If we are processing a duplicate rate, set the rate to 0
+            rate_law = transition.template.rate_law.args[0] if not duplicate \
+                else safe_parse_expr('0')
+            pnames = transition.template.get_parameter_names()
+            # We just choose an arbitrary one deterministically
+            rate_const = sorted(pnames)[0] if pnames else None
+
+            transition_dict["properties"] = {
+                "name": tid,
+                "rate_constant": rate_const,
+            }
+            self.rates.append(
+                {
+                    "target": tid,
+                    "expression": str(rate_law),
+                    "expression_mathml": expression_to_mathml(rate_law),
+                }
+            )
+
+        self.transitions.append(transition_dict)
+
     def to_json(
         self,
         name: str = None,
@@ -461,4 +532,3 @@ class ModelSpecification(BaseModel):
     model: RegNetModel
     semantics: Optional[Ode]
     metadata: Optional[Dict]
-
diff --git a/mira/sources/sbml/__init__.py b/mira/sources/sbml/__init__.py
index 0a0e47b0b..27d5326ff 100644
--- a/mira/sources/sbml/__init__.py
+++ b/mira/sources/sbml/__init__.py
@@ -1 +1,2 @@
 from .api import *
+from .qual_api import *
diff --git a/mira/sources/sbml/processor.py b/mira/sources/sbml/processor.py
index 04dd9ff00..8f37a9044 100644
--- a/mira/sources/sbml/processor.py
+++ b/mira/sources/sbml/processor.py
@@ -6,51 +6,15 @@
 """
 
 import copy
-import csv
-from collections import defaultdict
-from copy import deepcopy
-import logging
 import math
-from typing import Dict, Iterable, List, Mapping, Optional, Tuple
-
-import bioregistry
-import libsbml
-import sympy
-from lxml import etree
-from tqdm import tqdm
-
-from mira.metamodel import *
-from mira.resources import get_resource_file
-
-
-class TqdmLoggingHandler(logging.Handler):
-    def __init__(self, level=logging.NOTSET):
-        super().__init__(level)
-
-    def emit(self, record):
-        try:
-            msg = self.format(record)
-            tqdm.write(msg)
-            self.flush()
-        except Exception:
-            self.handleError(record)
+from typing import Dict, Iterable, List, Mapping, Tuple
 
+from mira.sources.sbml.utils import *
 
 logger = logging.getLogger(__name__)
 logger.addHandler(TqdmLoggingHandler())
 
-PREFIX_MAP = {
-    "rdf": "http://www.w3.org/1999/02/22-rdf-syntax-ns#",
-    "dcterms": "http://purl.org/dc/terms/",
-    "vCard": "http://www.w3.org/2001/vcard-rdf/3.0#",
-    "vCard4": "http://www.w3.org/2006/vcard/ns#",
-    "bqbiol": "http://biomodels.net/biology-qualifiers/",
-    "bqmodel": "http://biomodels.net/model-qualifiers/",
-    "CopasiMT": "http://www.copasi.org/RDF/MiriamTerms#",
-    "copasi": "http://www.copasi.org/static/sbml",
-    "jd": "http://www.sys-bio.org/sbml",
-}
-RESOURCE_KEY = "{http://www.w3.org/1999/02/22-rdf-syntax-ns#}resource"
+
 #: This XPath query gets annotations on species for their structured
 #: identifiers, typically given as MIRIAM URIs or URNs
 IDENTIFIERS_XPATH = f"rdf:RDF/rdf:Description/bqbiol:is/rdf:Bag/rdf:li"
@@ -61,7 +25,9 @@ def emit(self, record):
 #: This is an alternative XPath for groundings that use the isVersionOf
 #: relation and are thus less specific than the one above but can be used
 #: as fallback
-IDENTIFIERS_VERSION_XPATH = f"rdf:RDF/rdf:Description/bqbiol:isVersionOf/rdf:Bag/rdf:li"
+IDENTIFIERS_VERSION_XPATH = (
+    f"rdf:RDF/rdf:Description/bqbiol:isVersionOf/rdf:Bag/rdf:li"
+)
 #: This XPath query gets annotations on species about their properties,
 #: which typically help ad-hoc create subclasses that are more specific
 PROPERTIES_XPATH = f"rdf:RDF/rdf:Description/bqbiol:hasProperty/rdf:Bag/rdf:li"
@@ -70,28 +36,6 @@ def emit(self, record):
 IS_VERSION_XPATH = f"rdf:RDF/rdf:Description/bqbiol:hasProperty/rdf:Bag/rdf:li"
 
 
-class Converter:
-    """Wrapper around a curies converter with lazy loading."""
-
-    def __init__(self):
-        self.converter = None
-
-    def parse_uri(self, uri):
-        """Parse a URI into a prefix/identifier pair."""
-        if self.converter is None:
-            self.converter = bioregistry.get_converter(include_prefixes=True)
-        return self.converter.parse_uri(uri)
-
-    def uri_to_curie(self, uri: str) -> Optional[str]:
-        """Turn a URI into a CURIE."""
-        if self.converter is None:
-            self.converter = bioregistry.get_converter(include_prefixes=True)
-        return self.converter.compress(uri)
-
-
-converter = Converter()
-
-
 class SbmlProcessor:
     """Traverse an SBML document generated by libSBML and extract a MIRA
     Template model."""
@@ -104,15 +48,19 @@ def __init__(self, sbml_model, model_id=None, reporter_ids=None):
 
     def extract_model(self):
         if self.model_id is None:
-            self.model_id = get_model_id(self.sbml_model)
-        model_annots = get_model_annotations(self.sbml_model)
+            self.model_id = get_model_id(self.sbml_model, converter=converter)
+        model_annots = get_model_annotations(
+            self.sbml_model, converter=converter, logger=logger
+        )
         reporter_ids = set(self.reporter_ids or [])
         concepts = self._extract_concepts()
 
         def _lookup_concepts_filtered(species_ids) -> List[Concept]:
             return [
-                concepts[species_id] for species_id in species_ids
-                if species_id not in reporter_ids and 'cumulative' not in species_id
+                concepts[species_id]
+                for species_id in species_ids
+                if species_id not in reporter_ids
+                and "cumulative" not in species_id
             ]
 
         # Iterate thorugh all reactions and piecewise convert to templates
@@ -124,31 +72,36 @@ def _lookup_concepts_filtered(species_ids) -> List[Concept]:
 
         all_parameters = {
             parameter.id: {
-                'value': parameter.value,
-                'description': parameter.name,
-                'units': self.get_object_units(parameter)
+                "value": parameter.value,
+                "description": parameter.name,
+                "units": self.get_object_units(parameter),
             }
             for parameter in self.sbml_model.parameters
         }
-        parameter_symbols = \
-            {parameter.id: sympy.Symbol(parameter.id)
-             for parameter in self.sbml_model.parameters}
-        compartment_symbols = {compartment.id: sympy.Symbol(compartment.id)
-                               for compartment in self.sbml_model.compartments}
+        parameter_symbols = {
+            parameter.id: sympy.Symbol(parameter.id)
+            for parameter in self.sbml_model.parameters
+        }
+        compartment_symbols = {
+            compartment.id: sympy.Symbol(compartment.id)
+            for compartment in self.sbml_model.compartments
+        }
         # Add compartment volumes as parameters
         for compartment in self.sbml_model.compartments:
-            all_parameters[compartment.id] = {'value': compartment.volume,
-                                              'description': compartment.name,
-                                              'units': self.get_object_units(compartment)}
+            all_parameters[compartment.id] = {
+                "value": compartment.volume,
+                "description": compartment.name,
+                "units": self.get_object_units(compartment),
+            }
 
         # Handle custom function definitions in the model
         function_lambdas = {}
         for fun_def in self.sbml_model.function_definitions:
-            args = [fun_def.getArgument(i).getName()
-                    for i in range(fun_def.getNumArguments())]
-            arg_symbols = {
-                arg: sympy.Symbol(arg) for arg in args
-            }
+            args = [
+                fun_def.getArgument(i).getName()
+                for i in range(fun_def.getNumArguments())
+            ]
+            arg_symbols = {arg: sympy.Symbol(arg) for arg in args}
 
             signature = tuple(arg_symbols.values())
             formula_str = get_formula_str(fun_def.getBody())
@@ -161,18 +114,28 @@ def _lookup_concepts_filtered(species_ids) -> List[Concept]:
         # In formulas, the species ID appears instead of the species name
         # and so we have to map these to symbols corresponding to the species name
         species_id_map = {
-            species.id: (sympy.Symbol(species.name)
-                         if (species.name and '(' not in species.name
-                             and '-' not in species.name
-                             and '+' not in species.name)
-                         else sympy.Symbol(species.id))
+            species.id: (
+                sympy.Symbol(species.name)
+                if (
+                    species.name
+                    and "(" not in species.name
+                    and "-" not in species.name
+                    and "+" not in species.name
+                )
+                else sympy.Symbol(species.id)
+            )
             for species in self.sbml_model.species
         }
 
-        all_locals = {k: v for k, v in (list(parameter_symbols.items()) +
-                                        list(compartment_symbols.items()) +
-                                        list(function_lambdas.items()) +
-                                        list(species_id_map.items()))}
+        all_locals = {
+            k: v
+            for k, v in (
+                list(parameter_symbols.items())
+                + list(compartment_symbols.items())
+                + list(function_lambdas.items())
+                + list(species_id_map.items())
+            )
+        }
 
         # Handle custom assignment rules in the model
         assignment_rules = {}
@@ -184,8 +147,12 @@ def _lookup_concepts_filtered(species_ids) -> List[Concept]:
         all_implicit_modifiers = set()
         implicit_modifiers = None
         for reaction in self.sbml_model.reactions:
-            modifier_species = [species.species for species in reaction.modifiers]
-            reactant_species = [species.species for species in reaction.reactants]
+            modifier_species = [
+                species.species for species in reaction.modifiers
+            ]
+            reactant_species = [
+                species.species for species in reaction.reactants
+            ]
             product_species = [species.species for species in reaction.products]
 
             # In some models, modifiers are defined as both input and output
@@ -204,13 +171,14 @@ def _lookup_concepts_filtered(species_ids) -> List[Concept]:
             # Some rate laws define parameters locally and so we need to
             # extract them and add them to the global parameter list
             for parameter in rate_law.parameters:
-                all_parameters[parameter.id] = {'value': parameter.value,
-                                                'description': parameter.name if parameter.name else None,
-                                                'units': self.get_object_units(parameter)}
+                all_parameters[parameter.id] = {
+                    "value": parameter.value,
+                    "description": parameter.name if parameter.name else None,
+                    "units": self.get_object_units(parameter),
+                }
                 parameter_symbols[parameter.id] = sympy.Symbol(parameter.id)
 
-            rate_expr = safe_parse_expr(rate_law.formula,
-                                        local_dict=all_locals)
+            rate_expr = safe_parse_expr(rate_law.formula, local_dict=all_locals)
             # At this point we need to make sure we substitute the assignments
             rate_expr = rate_expr.subs(assignment_rules)
 
@@ -221,21 +189,26 @@ def _lookup_concepts_filtered(species_ids) -> List[Concept]:
                 # and explicit 1.0 will be carried around in the rate expression
                 comp_one = False
                 if comp_symbol in rate_expr.free_symbols:
-                    if rate_expr not in rate_expr.diff(comp_symbol).free_symbols:
-                        if all_parameters[comp]['value'] == 1.0:
+                    if (
+                        rate_expr
+                        not in rate_expr.diff(comp_symbol).free_symbols
+                    ):
+                        if all_parameters[comp]["value"] == 1.0:
                             comp_one = True
                             rate_expr /= comp_symbol
                 if not comp_one:
-                    rate_expr = rate_expr.subs(comp_symbol,
-                                               all_parameters[comp]['value'])
+                    rate_expr = rate_expr.subs(
+                        comp_symbol, all_parameters[comp]["value"]
+                    )
 
             rate_law_variables = variables_from_sympy_expr(rate_expr)
 
             # Implicit modifiers appear in the rate law but are not reactants and
             # aren't listed explicitly as modifiers. They have to be proper species
             # though (since the rate law also contains parameters).
-            implicit_modifiers = ((set(rate_law_variables) & all_species)
-                                  - (set(reactant_species) | set(modifier_species)))
+            implicit_modifiers = (set(rate_law_variables) & all_species) - (
+                set(reactant_species) | set(modifier_species)
+            )
             # We extend modifiers with implicit ones
             modifier_species += sorted(implicit_modifiers)
             all_implicit_modifiers |= implicit_modifiers
@@ -286,29 +259,43 @@ def _lookup_concepts_filtered(species_ids) -> List[Concept]:
                         )
                     )
             elif not reactants and not products:
-                logger.debug(f"[{self.model_id} reaction:{reaction.id}] missing reactants and products")
+                logger.debug(
+                    f"[{self.model_id} reaction:{reaction.id}] missing reactants and products"
+                )
                 continue
             # We either have a production or a degradation
             elif bool(products) != bool(reactants):
-                kwargs = {'rate_law': rate_expr}
+                kwargs = {"rate_law": rate_expr}
                 if not modifiers:
                     contr = {}
                 elif len(modifiers) == 1:
-                    contr = {'controller': modifiers[0]}
+                    contr = {"controller": modifiers[0]}
                 else:
-                    contr = {'controllers': modifiers}
+                    contr = {"controllers": modifiers}
                 kwargs.update(contr)
 
                 if products:
-                    cls = NaturalProduction if not modifiers else \
-                        (ControlledProduction if len(modifiers) == 1
-                         else GroupedControlledProduction)
-                    kwargs.update({'outcome': products[0]})
+                    cls = (
+                        NaturalProduction
+                        if not modifiers
+                        else (
+                            ControlledProduction
+                            if len(modifiers) == 1
+                            else GroupedControlledProduction
+                        )
+                    )
+                    kwargs.update({"outcome": products[0]})
                 else:
-                    cls = NaturalDegradation if not modifiers else \
-                        (ControlledDegradation if len(modifiers) == 1
-                         else GroupedControlledDegradation)
-                    kwargs.update({'subject': reactants[0]})
+                    cls = (
+                        NaturalDegradation
+                        if not modifiers
+                        else (
+                            ControlledDegradation
+                            if len(modifiers) == 1
+                            else GroupedControlledDegradation
+                        )
+                    )
+                    kwargs.update({"subject": reactants[0]})
                 templates.append(cls(**kwargs))
             else:
                 logger.debug(
@@ -327,21 +314,31 @@ def _lookup_concepts_filtered(species_ids) -> List[Concept]:
             # initial concentration is of type float
             initials[species.name] = Initial(
                 concept=concepts[species.getId()],
-                expression=SympyExprStr(sympy.Float(species.initial_concentration)),
+                expression=SympyExprStr(
+                    sympy.Float(species.initial_concentration)
+                ),
             )
 
-        param_objs = {k: Parameter(name=k, value=v['value'],
-                                   description=v['description'],
-                                   units=v['units'])
-                      for k, v in all_parameters.items()}
+        param_objs = {
+            k: Parameter(
+                name=k,
+                value=v["value"],
+                description=v["description"],
+                units=v["units"],
+            )
+            for k, v in all_parameters.items()
+        }
 
-        template_model = TemplateModel(templates=templates,
-                                       parameters=param_objs,
-                                       initials=initials,
-                                       annotations=model_annots)
+        template_model = TemplateModel(
+            templates=templates,
+            parameters=param_objs,
+            initials=initials,
+            annotations=model_annots,
+        )
         # Replace constant concepts by their initial value
-        template_model = replace_constant_concepts(template_model,
-                                                   implicit_modifiers)
+        template_model = replace_constant_concepts(
+            template_model, implicit_modifiers
+        )
         return template_model
 
     def _extract_concepts(self) -> Mapping[str, Concept]:
@@ -351,15 +348,16 @@ def _extract_concepts(self) -> Mapping[str, Concept]:
         for species in self.sbml_model.getListOfSpecies():
             # Extract the units for the species
             units = self.get_object_units(species)
-            concept = _extract_concept(species, model_id=self.model_id,
-                                       units=units)
+            concept = _extract_concept(
+                species, model_id=self.model_id, units=units
+            )
             concepts[species.getId()] = concept
 
         return concepts
 
     def get_object_units(self, object):
         if object.units:
-            if object.units == 'dimensionless':
+            if object.units == "dimensionless":
                 return Unit(expression=sympy.Integer(1))
             else:
                 return Unit(expression=self.units[object.units])
@@ -367,168 +365,6 @@ def get_object_units(self, object):
             return None
 
 
-def get_units(unit_definitions):
-    """Return units from a list of unit definition blocks."""
-    units = {}
-    for unit_def in unit_definitions:
-        units[unit_def.id] = process_unit_definition(unit_def)
-    return units
-
-
-unit_symbol_mappings = {
-    'item': 'person',
-    'metre': 'meter',
-    'litre': 'liter',
-}
-
-unit_expression_mappings = {
-    86400.0 * sympy.Symbol('second'): sympy.Symbol('day'),
-    1 / (86400.0 * sympy.Symbol('second')): 1 / sympy.Symbol('day'),
-    1 / (86400.0 * sympy.Symbol('second') * sympy.Symbol('person')):
-        1 / (sympy.Symbol('day') * sympy.Symbol('person')),
-    31536000.0 * sympy.Symbol('second'): sympy.Symbol('year'),
-    1 / (31536000.0 * sympy.Symbol('second')): 1 / sympy.Symbol('year'),
-    1 / (31536000.0 * sympy.Symbol('second') * sympy.Symbol('person')):
-        1 / (sympy.Symbol('year') * sympy.Symbol('person')),
-}
-
-
-def process_unit_definition(unit_definition):
-    """Process a unit definition block to extract an expression."""
-    full_unit_expr = sympy.Integer(1)
-    for unit in unit_definition.units:
-        unit_symbol_str = SBML_UNITS[unit.kind]
-        # We assume person instead of item here
-        if unit_symbol_str in unit_symbol_mappings:
-            unit_symbol_str = unit_symbol_mappings[unit_symbol_str]
-        unit_symbol = sympy.Symbol(unit_symbol_str)
-        # We do this to avoid the spurious factors in the expression
-        if unit.multiplier != 1:
-            unit_symbol *= unit.multiplier
-        if unit.exponent != 1:
-            unit_symbol **= unit.exponent
-        if unit.scale != 0:
-            unit_symbol *= 10 ** unit.scale
-        full_unit_expr *= unit_symbol
-    # We apply some mappings for canonical units we want to change
-    # We use equals here since == in sympy is structural equality
-    for k, v in unit_expression_mappings.items():
-        if full_unit_expr.equals(k):
-            full_unit_expr = v
-    return full_unit_expr
-
-
-def get_model_annotations(sbml_model) -> Annotations:
-    """Get the model annotations from the SBML model."""
-    ann_xml = sbml_model.getAnnotationString()
-    if not ann_xml:
-        return None
-    et = etree.fromstring(ann_xml)
-    # Publication: bqmodel:isDescribedBy
-    # Disease: bqbiol:is
-    # Taxa: bqbiol:hasTaxon
-    # Model type: bqbiol:hasProperty
-    annot_structure = {
-        'publications': 'bqmodel:isDescribedBy',
-        'diseases': 'bqbiol:is',
-        'taxa': 'bqbiol:hasTaxon',
-        'model_type': 'bqbiol:hasProperty',
-        'pathway': 'bqbiol:isVersionOf',  # points to pathways
-        # bqbiol:isPartOf used to point to pathways
-        # bqbiol:occursIn used to point to pathways - might be subtle distinction with process vs. pathway
-        'homolog_to': "bqbiol:isHomologTo",
-        "base_model": "bqmodel:isDerivedFrom",  # derived from other biomodel
-        'has_part': "bqbiol:hasPart",  # points to pathways
-    }
-    annotations = defaultdict(list)
-    for key, path in annot_structure.items():
-        full_path = f'rdf:RDF/rdf:Description/{path}/rdf:Bag/rdf:li'
-        tags = et.findall(full_path, namespaces=PREFIX_MAP)
-        if not tags:
-            continue
-        for tag in tags:
-            uri = tag.attrib.get(RESOURCE_KEY)
-            if not uri:
-                continue
-            curie = converter.uri_to_curie(uri)
-            if not curie:
-                continue
-            annotations[key].append(curie)
-
-    model_id = get_model_id(sbml_model)
-    if model_id and model_id.startswith("BIOMD"):
-        license = "CC0"
-    else:
-        license = None
-
-    # TODO smarter split up taxon into pathogens and host organisms
-    hosts = []
-    pathogens = []
-    for curie in annotations.get("taxa", []):
-        if curie == "ncbitaxon:9606":
-            hosts.append(curie)
-        else:
-            pathogens.append(curie)
-
-    model_types = []
-    diseases = []
-    logged_curie = set()
-    for curie in annotations.get("model_type", []):
-        if curie.startswith("mamo:"):
-            model_types.append(curie)
-        elif any(
-            curie.startswith(f"{disease_prefix}:")
-            for disease_prefix in ["mondo", "doid", "efo"]
-        ) or _curie_is_ncit_disease(curie):
-            diseases.append(bioregistry.normalize_curie(curie))
-        elif curie not in logged_curie:
-            logged_curie.add(curie)
-            logger.debug(f"unhandled model_type: {curie}")
-
-    return Annotations(
-        name=sbml_model.getModel().getName(),
-        description=None,  # TODO
-        license=license,
-        authors=[],  # TODO,
-        references=annotations.get("publications", []),
-        # no time_scale, time_start, time_end, locations from biomodels
-        hosts=hosts,
-        pathogens=pathogens,
-        diseases=diseases,
-        model_types=model_types,
-    )
-
-
-def _curie_is_ncit_disease(curie: str) -> bool:
-    prefix, identifier = bioregistry.parse_curie(curie)
-    if prefix != "ncit":
-        return False
-    try:
-        import pyobo
-    except ImportError:
-        return False
-    else:
-        # return pyobo.has_ancestor("ncit", identifier, "ncit", "C2991")
-        return False
-
-
-def get_model_id(sbml_model):
-    """Get the model ID from the SBML model annotation."""
-    ann_xml = sbml_model.getAnnotationString()
-    if not ann_xml:
-        return None
-    et = etree.fromstring(ann_xml)
-    id_tags = et.findall('rdf:RDF/rdf:Description/bqmodel:is/rdf:Bag/rdf:li',
-                         namespaces=PREFIX_MAP)
-    for id_tag in id_tags:
-        uri = id_tag.attrib.get(RESOURCE_KEY)
-        if uri:
-            prefix, identifier = converter.parse_uri(uri)
-            if prefix == 'biomodels.db' and identifier.startswith('BIOMD'):
-                return identifier
-    return None
-
-
 def find_constant_concepts(template_model: TemplateModel) -> Iterable[str]:
     # Find concepts that are unchanged, just appear as controllers or not at all
     all_concepts = set()
@@ -536,9 +372,12 @@ def find_constant_concepts(template_model: TemplateModel) -> Iterable[str]:
     for template in template_model.templates:
         concepts_by_role = template.get_concepts_by_role()
         for role, concepts in concepts_by_role.items():
-            names = {c.name for c in concepts} if \
-                isinstance(concepts, list) else {concepts.name}
-            if role in {'subject', 'outcome'}:
+            names = (
+                {c.name for c in concepts}
+                if isinstance(concepts, list)
+                else {concepts.name}
+            )
+            if role in {"subject", "outcome"}:
                 changing_concepts |= names
             all_concepts |= names
     non_changing_concepts = all_concepts - changing_concepts
@@ -561,13 +400,14 @@ def replace_constant_concepts(template_model: TemplateModel, candidates=None):
         # Fixme, do we need more grounding (identifiers, concept)
         # for the concept here?
         # Get the units of the concept here
-        template_model.parameters[constant_concept] = \
-            Parameter(name=constant_concept, value=float(initial_expression.args[0]))
+        template_model.parameters[constant_concept] = Parameter(
+            name=constant_concept, value=float(initial_expression.args[0])
+        )
         new_templates = []
         for template in template_model.templates:
-            new_template = replace_controller_by_constant(template,
-                                                          constant_concept,
-                                                          initial_expression.args[0])
+            new_template = replace_controller_by_constant(
+                template, constant_concept, initial_expression.args[0]
+            )
             if new_template:
                 new_templates.append(new_template)
             else:
@@ -583,16 +423,22 @@ def replace_controller_by_constant(template, controller_name, value):
                 subject=template.subject,
                 outcome=template.outcome,
             )
-            new_template.rate_law = template.rate_law.subs(controller_name, value)
+            new_template.rate_law = template.rate_law.subs(
+                controller_name, value
+            )
             return new_template
     elif isinstance(template, GroupedControlledConversion):
         if len(template.controllers) > 2:
             new_template = GroupedControlledConversion(
                 subject=template.subject,
                 outcome=template.outcome,
-                controllers=[c for c in template.controllers if c.name != controller_name],
+                controllers=[
+                    c for c in template.controllers if c.name != controller_name
+                ],
+            )
+            new_template.rate_law = template.rate_law.subs(
+                controller_name, value
             )
-            new_template.rate_law = template.rate_law.subs(controller_name, value)
             return new_template
         else:
             # If there are only two controllers, we can replace the
@@ -602,7 +448,9 @@ def replace_controller_by_constant(template, controller_name, value):
                 outcome=template.outcome,
                 controller=template.controllers[0],
             )
-            new_template.rate_law = template.rate_law.subs(controller_name, value)
+            new_template.rate_law = template.rate_law.subs(
+                controller_name, value
+            )
             return new_template
     # TODO: potentially handle other template types
     return
@@ -621,30 +469,32 @@ def get_formula_str(ast_node):
     if not name:
         op = ast_node.getOperatorName()
         if op:
-            if op == 'times':
-                op_str = '*'
-            elif op == 'plus':
-                op_str = '+'
-            elif op == 'divide':
-                op_str = '/'
-            elif op == 'minus':
-                op_str = '-'
+            if op == "times":
+                op_str = "*"
+            elif op == "plus":
+                op_str = "+"
+            elif op == "divide":
+                op_str = "/"
+            elif op == "minus":
+                op_str = "-"
             else:
-                print('Unknown op: %s' % op)
+                print("Unknown op: %s" % op)
                 assert False
             # Special case where we have a unary minus
-            if op == 'minus' and ast_node.isUMinus():
-                return '-%s' % get_formula_str(ast_node.getChild(0))
+            if op == "minus" and ast_node.isUMinus():
+                return "-%s" % get_formula_str(ast_node.getChild(0))
             # More general binary case
-            return '(%s %s %s)' % (get_formula_str(ast_node.getChild(0)),
-                                   op_str,
-                                   get_formula_str(ast_node.getChild(1)))
+            return "(%s %s %s)" % (
+                get_formula_str(ast_node.getChild(0)),
+                op_str,
+                get_formula_str(ast_node.getChild(1)),
+            )
         val = ast_node.getValue()
         if val is not None:
             return val
     # Exponential doesn't show up as an operator but rather a name
-    elif name in {'exp'}:
-        return '%s(%s)' % (name, get_formula_str(ast_node.getChild(0)))
+    elif name in {"exp"}:
+        return "%s(%s)" % (name, get_formula_str(ast_node.getChild(0)))
     else:
         return name
 
@@ -689,7 +539,7 @@ def _extract_concept(species, units=None, model_id=None):
     species_id = species.getId()
     species_name = species.getName()
     display_name = species_name
-    if '(' in species_name:
+    if "(" in species_name:
         species_name = species_id
 
     # If we have curated a grounding for this species we return the concept
@@ -701,11 +551,13 @@ def _extract_concept(species, units=None, model_id=None):
             display_name=display_name,
             identifiers=copy.deepcopy(mapped_ids),
             context=copy.deepcopy(mapped_context),
-            units=units
+            units=units,
         )
         return concept
     else:
-        logger.debug(f"[{model_id} species:{species_id}] not found in grounding map")
+        logger.debug(
+            f"[{model_id} species:{species_id}] not found in grounding map"
+        )
 
     # Otherwise we try to create a Concept with all its groundings and apply
     # various normalizations and clean up.
@@ -715,50 +567,65 @@ def _extract_concept(species, units=None, model_id=None):
     annotation_string = species.getAnnotationString()
     if not annotation_string:
         logger.debug(f"[{model_id} species:{species_id}] had no annotations")
-        concept = Concept(name=species_name, display_name=display_name,
-                          identifiers={}, context={}, units=units)
+        concept = Concept(
+            name=species_name,
+            display_name=display_name,
+            identifiers={},
+            context={},
+            units=units,
+        )
         return concept
 
     annotation_tree = etree.fromstring(annotation_string)
 
     rdf_properties = [
         converter.parse_uri(desc.attrib[RESOURCE_KEY])
-        for desc in
-        annotation_tree.findall(PROPERTIES_XPATH, namespaces=PREFIX_MAP)
+        for desc in annotation_tree.findall(
+            PROPERTIES_XPATH, namespaces=PREFIX_MAP
+        )
     ]
 
     # First we check identifiers with a specific relation representing
     # equivalence
     identifiers_list = []
-    for element in annotation_tree.findall(IDENTIFIERS_XPATH,
-                                           namespaces=PREFIX_MAP):
+    for element in annotation_tree.findall(
+        IDENTIFIERS_XPATH, namespaces=PREFIX_MAP
+    ):
         curie = converter.parse_uri(element.attrib[RESOURCE_KEY])
         identifiers_list.append(curie)
 
     context = {}
-    if ('ido', 'C101887') in identifiers_list:
-        identifiers_list.remove(('ido', 'C101887'))
-        identifiers_list.append(('ncit', 'C101887'))
-    if ('ncit', 'C171133') in identifiers_list:
-        identifiers_list.remove(('ncit', 'C171133'))
+    if ("ido", "C101887") in identifiers_list:
+        identifiers_list.remove(("ido", "C101887"))
+        identifiers_list.append(("ncit", "C101887"))
+    if ("ncit", "C171133") in identifiers_list:
+        identifiers_list.remove(("ncit", "C171133"))
     # Reclassify asymptomatic as a disease status
-    if ('ido', '0000569') in identifiers_list and \
-            ('ido', '0000511') in identifiers_list:
-        identifiers_list.remove(('ido', '0000569'))
-        context['disease_status'] = 'ncit:C3833'
+    if ("ido", "0000569") in identifiers_list and (
+        "ido",
+        "0000511",
+    ) in identifiers_list:
+        identifiers_list.remove(("ido", "0000569"))
+        context["disease_status"] = "ncit:C3833"
     # Exposed shouldn't be susceptible
-    if ('ido', '0000514') in identifiers_list and \
-            ('ido', '0000597') in identifiers_list:
-        identifiers_list.remove(('ido', '0000514'))
+    if ("ido", "0000514") in identifiers_list and (
+        "ido",
+        "0000597",
+    ) in identifiers_list:
+        identifiers_list.remove(("ido", "0000514"))
     # Break apoart hospitalized and ICU
-    if ('ncit', 'C25179') in identifiers_list and \
-            ('ncit', 'C53511') in identifiers_list:
-        identifiers_list.remove(('ncit', 'C53511'))
-        context['disease_status'] = 'ncit:C53511'
+    if ("ncit", "C25179") in identifiers_list and (
+        "ncit",
+        "C53511",
+    ) in identifiers_list:
+        identifiers_list.remove(("ncit", "C53511"))
+        context["disease_status"] = "ncit:C53511"
     # Remove redundant term for deceased due to disease progression
-    if ('ncit', 'C28554') in identifiers_list and \
-            ('ncit', 'C168970') in identifiers_list:
-        identifiers_list.remove(('ncit', 'C168970'))
+    if ("ncit", "C28554") in identifiers_list and (
+        "ncit",
+        "C168970",
+    ) in identifiers_list:
+        identifiers_list.remove(("ncit", "C168970"))
 
     identifiers = dict(identifiers_list)
     if len(identifiers) != len(identifiers_list):
@@ -766,43 +633,47 @@ def _extract_concept(species, units=None, model_id=None):
 
     # We capture context here as a set of generic properties
     for idx, rdf_property in enumerate(sorted(rdf_properties)):
-        if rdf_property[0] == 'ncit' and rdf_property[1].startswith('000'):
-            prop = ('ido', rdf_property[1])
-        elif rdf_property[0] == 'ido' and rdf_property[1].startswith('C'):
-            prop = ('ncit', rdf_property[1])
+        if rdf_property[0] == "ncit" and rdf_property[1].startswith("000"):
+            prop = ("ido", rdf_property[1])
+        elif rdf_property[0] == "ido" and rdf_property[1].startswith("C"):
+            prop = ("ncit", rdf_property[1])
         else:
             prop = rdf_property
         context[f'property{"" if idx == 0 else idx}'] = ":".join(prop)
     # As a fallback, we also check if identifiers are available with
     # a less specific relation
     if not identifiers:
-        elements = sorted([
-            converter.parse_uri(element.attrib[RESOURCE_KEY])
-            for element in annotation_tree.findall(IDENTIFIERS_VERSION_XPATH,
-                                                   namespaces=PREFIX_MAP)
-        ], reverse=True)
+        elements = sorted(
+            [
+                converter.parse_uri(element.attrib[RESOURCE_KEY])
+                for element in annotation_tree.findall(
+                    IDENTIFIERS_VERSION_XPATH, namespaces=PREFIX_MAP
+                )
+            ],
+            reverse=True,
+        )
         # This is generic COVID-19 infection, generally not needed
-        if ('ncit', 'C171133') in elements:
-            elements.remove(('ncit', 'C171133'))
+        if ("ncit", "C171133") in elements:
+            elements.remove(("ncit", "C171133"))
         # Remap inconsistent groundings
-        if ('ido', '0000569') in elements:
-            elements.remove(('ido', '0000569'))
-            elements.append(('ido', '0000511'))
-            context['disease_status'] = 'ncit:C3833'
-        elif ('ido', '0000573') in elements:
-            elements.remove(('ido', '0000573'))
-            elements.append(('ido', '0000511'))
-            context['disease_status'] = 'ncit:C25269'
+        if ("ido", "0000569") in elements:
+            elements.remove(("ido", "0000569"))
+            elements.append(("ido", "0000511"))
+            context["disease_status"] = "ncit:C3833"
+        elif ("ido", "0000573") in elements:
+            elements.remove(("ido", "0000573"))
+            elements.append(("ido", "0000511"))
+            context["disease_status"] = "ncit:C25269"
         # Make transmissibility a context instead of identity
-        if ('ido', '0000463') in elements:
-            if ('ncit', 'C49508') in elements:
-                context['transmissibility'] = 'ncit:C49508'
-                elements.remove(('ido', '0000463'))
-                elements.remove(('ncit', 'C49508'))
-            elif ('ncit', 'C171549') in elements:
-                context['transmissibility'] = 'ncit:C171549'
-                elements.remove(('ido', '0000463'))
-                elements.remove(('ncit', 'C171549'))
+        if ("ido", "0000463") in elements:
+            if ("ncit", "C49508") in elements:
+                context["transmissibility"] = "ncit:C49508"
+                elements.remove(("ido", "0000463"))
+                elements.remove(("ncit", "C49508"))
+            elif ("ncit", "C171549") in elements:
+                context["transmissibility"] = "ncit:C171549"
+                elements.remove(("ido", "0000463"))
+                elements.remove(("ncit", "C171549"))
 
         identifiers = dict(elements)
 
@@ -820,52 +691,31 @@ def _extract_concept(species, units=None, model_id=None):
     return concept
 
 
-def grounding_normalize(concept):
-    # A common curation mistake in BioModels: mixing up IDO and NCIT identifiers
-    for k, v in deepcopy(concept.identifiers).items():
-        if k == 'ncit' and v.startswith('000'):
-            concept.identifiers.pop(k)
-            concept.identifiers['ido'] = v
-        elif k == 'ido' and v.startswith('C'):
-            concept.identifiers.pop(k)
-            concept.identifiers['ncit'] = v
-    # Has property acquired immunity == immune population
-    if not concept.get_curie()[0] and \
-            concept.context == {'property': 'ido:0000621'}:
-        concept.identifiers['ido'] = '0000592'
-        concept.context = {}
-    elif concept.get_curie() == ('ido', '0000514') and \
-            concept.context == {'property': 'ido:0000468'}:
-        concept.context = {}
-    # Different ways of expression immune/recovered
-    elif concept.get_curie() == ('ncit', 'C171133') and \
-            concept.context == {'property': 'ido:0000621'}:
-        concept.identifiers = {'ido': '0000592'}
-        concept.context = {}
-    # Different terms for dead/deceased
-    elif concept.get_curie() == ('ncit', 'C168970'):
-        concept.identifiers = {'ncit': 'C28554'}
-    return concept
-
-
-def _get_copasi_identifiers(annotation_tree: etree, xpath: str) -> Dict[str, str]:
+def _get_copasi_identifiers(
+    annotation_tree: etree, xpath: str
+) -> Dict[str, str]:
     # Use COPASI_IS or COPASI_IS_VERSION_OF for xpath depending on use case
     return dict(
-        tuple(el.attrib[RESOURCE_KEY].split(':')[-2:]) for el in
-        annotation_tree.xpath(xpath, namespaces=PREFIX_MAP)
+        tuple(el.attrib[RESOURCE_KEY].split(":")[-2:])
+        for el in annotation_tree.xpath(xpath, namespaces=PREFIX_MAP)
     )
 
 
 def _get_copasi_props(annotation_tree: etree) -> List[Tuple[str, str]]:
     return [
-        tuple(el.attrib[RESOURCE_KEY].split(':')[-2:]) for el in
-        annotation_tree.xpath(COPASI_HAS_PROPERTY, namespaces=PREFIX_MAP)
+        tuple(el.attrib[RESOURCE_KEY].split(":")[-2:])
+        for el in annotation_tree.xpath(
+            COPASI_HAS_PROPERTY, namespaces=PREFIX_MAP
+        )
     ]
 
 
-def _extract_all_copasi_attrib(species_annot_etree: etree) -> List[Tuple[str, str]]:
-    descr_tags = species_annot_etree.xpath(COPASI_DESCR_XPATH,
-                                           namespaces=PREFIX_MAP)
+def _extract_all_copasi_attrib(
+    species_annot_etree: etree,
+) -> List[Tuple[str, str]]:
+    descr_tags = species_annot_etree.xpath(
+        COPASI_DESCR_XPATH, namespaces=PREFIX_MAP
+    )
     resources = []
     for descr_tag in descr_tags:
         for element in descr_tag.iter():
@@ -885,61 +735,3 @@ def _extract_all_copasi_attrib(species_annot_etree: etree) -> List[Tuple[str, st
                 assert value != "{}"
                 resources.append((key, value))
     return resources
-
-
-def _get_grounding_map():
-    def parse_identifier_grounding(grounding_str):
-        # Example: ido:0000511/infected population from which we want to get
-        # {'ido': '0000511'}
-        if not grounding_str:
-            return {}
-        return dict(
-            tuple(grounding.split('/')[0].split(':'))
-            for grounding in grounding_str.split('|')
-        )
-
-    def parse_context_grounding(grounding_str):
-        # Example: disease_severity=ncit:C25269/Symptomatic|
-        #          diagnosis=ncit:C113725/Undiagnosed
-        # from which we want to get {'disease_severity': 'ncit:C25269',
-        #                            'diagnosis': 'ncit:C113725'}
-        if not grounding_str:
-            return {}
-        return dict(
-            tuple(grounding.split('/')[0].split('='))
-            for grounding in grounding_str.split('|')
-        )
-
-    fname = get_resource_file('mapped_biomodels_groundings.csv')
-    mappings = {}
-    with open(fname, 'r') as fh:
-        reader = csv.reader(fh)
-        next(reader)
-        for name, ids, context, model, mapped_ids, mapped_context in reader:
-            mappings[(model, name)] = (
-                parse_identifier_grounding(mapped_ids),
-                parse_context_grounding(mapped_context)
-            )
-
-    return mappings
-
-
-grounding_map = _get_grounding_map()
-
-
-def get_sbml_units():
-    """Build up a mapping of SBML unit kinds to their names.
-
-    This is necessary because units are given as numbers.
-    """
-    module_contents = dir(libsbml)
-    unit_kinds = {var: var.split('_')[-1].lower()
-                  for var in module_contents
-                  if var.startswith("UNIT_KIND")
-                  and var != "UNIT_KIND_INVALID"}
-    unit_kinds = {getattr(libsbml, var): unit_name
-                  for var, unit_name in unit_kinds.items()}
-    return unit_kinds
-
-
-SBML_UNITS = get_sbml_units()
diff --git a/mira/sources/sbml/qual_api.py b/mira/sources/sbml/qual_api.py
new file mode 100644
index 000000000..ef5c854b9
--- /dev/null
+++ b/mira/sources/sbml/qual_api.py
@@ -0,0 +1,165 @@
+from typing import Iterable, Optional
+
+from libsbml import SBMLReader
+
+from mira.metamodel import TemplateModel
+from .qual_processor import SbmlQualProcessor
+
+__all__ = [
+    "template_model_from_sbml_qual_file",
+    "template_model_from_sbml_qual_file_obj",
+    "template_model_from_sbml_qual_string",
+    "template_model_from_sbml_qual_model",
+    "sbml_qual_model_from_file",
+]
+
+
+def template_model_from_sbml_qual_file(
+    file_path,
+    *,
+    model_id: Optional[str] = None,
+    reporter_ids: Optional[Iterable[str]] = None,
+) -> TemplateModel:
+    """Extract a MIRA template model from a file containing SBML Qual XML.
+
+    Parameters
+    ----------
+    file_path :
+        The path to the SBML Qual file.
+    model_id :
+        The ID of the model to extract. (Optional) If not provided, an attempt
+        will be made to extract an ID from the SBML Qual file if it's a BIOMODELS
+        model.
+    reporter_ids :
+        An iterable of reporter IDs
+
+    Returns
+    -------
+    :
+        The extracted MIRA template model.
+    """
+    sbml_model, qual_model = sbml_qual_model_from_file(file_path)
+    return template_model_from_sbml_qual_model(
+        sbml_model, qual_model, model_id=model_id, reporter_ids=reporter_ids
+    )
+
+
+def template_model_from_sbml_qual_file_obj(
+    file,
+    *,
+    model_id: Optional[str] = None,
+    reporter_ids: Optional[Iterable[str]] = None,
+) -> TemplateModel:
+    """Extract a MIRA template model from a file object containing SBML Qual XML.
+
+    Parameters
+    ----------
+    file :
+        The open file object containing the SBML Qual XML.
+    model_id :
+        The ID of the model to extract. (Optional) If not provided, an attempt
+        will be made to extract an ID from the SBML Qual file if it's a BIOMODELS
+        model.
+    reporter_ids :
+        An iterable of reporter IDs
+
+    Returns
+    -------
+    :
+        The extracted MIRA template model.
+    """
+    return template_model_from_sbml_qual_string(
+        file.read().decode("utf-8"),
+        model_id=model_id,
+        reporter_ids=reporter_ids,
+    )
+
+
+def sbml_qual_model_from_file(fname):
+    """Return an SBML model object and SBML Qual model object from an SBML Qual file.
+
+    Parameters
+    ----------
+    fname :
+        The path to the SBML Qual file.
+
+    Returns
+    -------
+    :
+        An SBML model object.
+    :
+        An SBMl Qual Model object.
+    """
+    with open(fname, "rb") as fh:
+        sbml_string = fh.read().decode("utf-8")
+    sbml_document = SBMLReader().readSBMLFromString(sbml_string)
+    sbml_model = sbml_document.getModel()
+    qual_model_plugin = sbml_model.getPlugin("qual")
+    return sbml_model, qual_model_plugin
+
+
+def template_model_from_sbml_qual_string(
+    s: str,
+    *,
+    model_id: Optional[str] = None,
+    reporter_ids: Optional[Iterable[str]] = None,
+) -> TemplateModel:
+    """Extract a MIRA template model from a string representing SBML Qual XML.
+
+    Parameters
+    ----------
+    s :
+        The string containing the SBML Qual XML.
+    model_id :
+        The ID of the model to extract. (Optional) If not provided, an attempt
+        will be made to extract an ID from the SBML Qual xml if it's a BIOMODELS
+        model.
+    reporter_ids :
+        An iterable of reporter IDs
+
+    Returns
+    -------
+    :
+        The extracted TemplateModel.
+    """
+    sbml_document = SBMLReader().readSBMLFromString(s)
+    sbml_model = sbml_document.getModel()
+    qual_model_plugin = sbml_model.getPlugin("qual")
+    return template_model_from_sbml_qual_model(
+        sbml_model,
+        qual_model_plugin,
+        model_id=model_id,
+        reporter_ids=reporter_ids,
+    )
+
+
+def template_model_from_sbml_qual_model(
+    sbml_model,
+    qual_model,
+    *,
+    model_id: Optional[str] = None,
+    reporter_ids: Optional[Iterable[str]] = None,
+) -> TemplateModel:
+    """Extract a MIRA template model from an SBML Qual model object.
+
+    Parameters
+    ----------
+    sbml_model :
+        The SBML model object.
+    qual_model :
+        The SBML Qual model object
+    model_id :
+        The ID of the model to extract. (Optional) If not provided, an attempt
+        will be made to extract an ID from the SBML Qual model if it's a BIOMODELS
+        model.
+
+    Returns
+    -------
+    :
+        The extracted TemplateModel.
+    """
+    processor = SbmlQualProcessor(
+        sbml_model, qual_model, model_id=model_id, reporter_ids=reporter_ids
+    )
+    tm = processor.extract_model()
+    return tm
diff --git a/mira/sources/sbml/qual_processor.py b/mira/sources/sbml/qual_processor.py
new file mode 100644
index 000000000..ed2124bf9
--- /dev/null
+++ b/mira/sources/sbml/qual_processor.py
@@ -0,0 +1,406 @@
+"""
+This module extracts an equivalent MIRA template model from an SBML Qual document. As
+opposed to a regular SBML document, models derived from an SBML Qual document have empty
+unit_definitions, parameters, and compartment attributes.
+
+This module extracts templates, initials and concepts from SBML Qual documents.
+"""
+import copy
+import re
+from typing import List, Mapping
+from urllib.parse import unquote
+
+from mira.sources.sbml.utils import *
+
+from lxml import etree
+
+
+DESCRIPTION_XPATH = f".//bqbiol:isDescribedBy/rdf:Bag/rdf:li"
+ENCODED_XPATH = f".//bqbiol:isEncodedBy/rdf:Bag/rdf:li"
+
+logger = logging.getLogger(__name__)
+logger.addHandler(TqdmLoggingHandler())
+
+
+class SbmlQualProcessor:
+
+    """Traverse an SBML Qual document generated by libSBML and extract a MIRA Template model."""
+
+    def __init__(
+        self, sbml_model, qual_model_plugin, model_id=None, reporter_ids=None
+    ):
+        self.qual_model_plugin = qual_model_plugin
+        self.sbml_model = sbml_model
+        self.model_id = model_id
+        self.reporter_ids = reporter_ids
+
+    def extract_model(self):
+        if self.model_id is None:
+            self.model_id = get_model_id(self.sbml_model, converter=converter)
+        model_annots = get_model_annotations(
+            self.sbml_model, converter=converter, logger=logger
+        )
+        reporter_ids = set(self.reporter_ids or [])
+        concepts = self._extract_concepts()
+
+        def _lookup_concepts_filtered(species_ids) -> List[Concept]:
+            return [
+                concepts[species_id]
+                for species_id in species_ids
+                if species_id not in reporter_ids
+                and "cumulative" not in species_id
+            ]
+
+        templates: List[Template] = []
+
+        # each input to a transition can have a negative or positive sign or no sign
+        # qual:sign = positive in source file indicates it controls the production of something
+        # qual:sign = negative in source file indicates it controls the degradation of something
+        # if both positive and negative exists, it is production process, with a list of
+        # controllers from both the negative and positive side.
+        # if no sign is given, we default to positive sign
+
+        # Transitions always have at least one input and one output
+        # Since we always have at least one input, there will always be at least
+        # 1 controller (negative or positive). Will never have a natural template
+        for transition_id, transition in enumerate(
+            self.qual_model_plugin.transitions
+        ):
+            transition_name = transition.id
+
+            input_names = [
+                qual_species.qualitative_species
+                for qual_species in transition.getListOfInputs()
+            ]
+            output_names = [
+                qual_species.qualitative_species
+                for qual_species in transition.getListOfOutputs()
+            ]
+
+            # positive sign is anything other than 1, negative sign is 1 for inputs only
+            # outputs do not have a sign
+            positive_controller_names = [
+                qual_species.qualitative_species
+                for qual_species in transition.getListOfInputs()
+                if qual_species.getSign() != 1
+            ]
+
+            negative_controller_names = [
+                qual_species.qualitative_species
+                for qual_species in transition.getListOfInputs()
+                if qual_species.getSign() == 1
+            ]
+
+            input_concepts = _lookup_concepts_filtered(input_names)
+            output_concepts = _lookup_concepts_filtered(output_names)
+            positive_controller_concepts = _lookup_concepts_filtered(
+                positive_controller_names
+            )
+            negative_controller_concepts = _lookup_concepts_filtered(
+                negative_controller_names
+            )
+
+            if (
+                not positive_controller_concepts
+                and not negative_controller_concepts
+            ):
+                if len(input_concepts) == 1 and len(output_concepts) == 0:
+                    templates.append(
+                        NaturalDegradation(
+                            subject=input_concepts[0],
+                            name=transition_id,
+                            display_name=transition_name,
+                        )
+                    )
+                elif len(input_concepts) == 0 and len(output_concepts) == 1:
+                    templates.append(
+                        NaturalProduction(
+                            outcome=output_concepts[0],
+                            name=transition_id,
+                            display_name=transition_name,
+                        )
+                    )
+                elif len(input_concepts) == 1 and len(output_concepts) == 1:
+                    templates.append(
+                        NaturalConversion(
+                            subject=input_concepts[0],
+                            outcome=output_concepts[0],
+                            name=transition_id,
+                            display_name=transition_name,
+                        )
+                    )
+            else:
+                if (
+                    len(positive_controller_concepts) >= 1
+                    and len(negative_controller_concepts) == 0
+                ):
+                    if len(positive_controller_concepts) == 1:
+                        templates.append(
+                            ControlledProduction(
+                                controller=positive_controller_concepts[0],
+                                outcome=output_concepts[0],
+                                name=transition_id,
+                                display_name=transition_name,
+                            )
+                        )
+                    else:
+                        templates.append(
+                            GroupedControlledProduction(
+                                controllers=positive_controller_concepts,
+                                outcome=output_concepts[0],
+                                name=transition_id,
+                                display_name=transition_name,
+                            )
+                        )
+                elif (
+                    len(positive_controller_concepts) == 0
+                    and len(negative_controller_concepts) >= 1
+                ):
+                    if len(negative_controller_concepts) == 1:
+                        templates.append(
+                            ControlledDegradation(
+                                controller=negative_controller_concepts[0],
+                                subject=input_concepts[0],
+                                name=transition_id,
+                                display_name=transition_name,
+                            )
+                        )
+                    else:
+                        templates.append(
+                            GroupedControlledDegradation(
+                                controllers=negative_controller_concepts,
+                                subject=input_concepts[0],
+                                name=transition_id,
+                                display_name=transition_name,
+                            )
+                        )
+                elif (
+                    len(positive_controller_concepts) >= 1
+                    and len(negative_controller_concepts) >= 1
+                ):
+                    templates.append(
+                        GroupedControlledProduction(
+                            controllers=positive_controller_concepts
+                            + negative_controller_concepts,
+                            outcome=output_concepts[0],
+                            name=transition_id,
+                            display_name=transition_name,
+                        )
+                    )
+
+        initials = {}
+        for qual_species in self.qual_model_plugin.qualitative_species:
+            initials[qual_species.id] = Initial(
+                concept=concepts[qual_species.id],
+                expression=qual_species.level,
+            )
+
+        template_model = TemplateModel(
+            templates=templates, initials=initials, annotations=model_annots
+        )
+        return template_model
+
+    def _extract_concepts(self) -> Mapping[str, Concept]:
+        concepts = {}
+        for species in self.qual_model_plugin.getListOfQualitativeSpecies():
+            units = self.get_object_units(species)
+            concept = _extract_concept(
+                species, model_id=self.model_id, units=units
+            )
+            concepts[species.id] = concept
+        return concepts
+
+    def get_object_units(self, object):
+        # QualitativeSpecies object does not have a units attribute
+        if hasattr(object, "units"):
+            if object.units == "dimensionless":
+                return Unit(expression=sympy.Integer(1))
+            else:
+                return Unit(expression=self.units[object.units])
+        else:
+            return None
+
+
+def _extract_concept(species, units=None, model_id=None):
+    """Extract a concept and its accompanying annotation from a qualitative species"""
+    # retrieve local name for species that is only used a reference in the sbml qual model
+    local_qual_name_reference = species.id
+    # retrieve name of the species that can be used for look up in external resources
+    external_name = species.name
+
+    if (model_id, external_name) in grounding_map:
+        mapped_ids, mapped_context = grounding_map[(model_id, external_name)]
+        concept = Concept(
+            name=local_qual_name_reference,
+            display_name=external_name,
+            identifiers=copy.deepcopy(mapped_ids),
+            context=copy.deepcopy(mapped_context),
+            units=units,
+        )
+        return concept
+    else:
+        logger.debug(
+            f"[{model_id} species:{external_name}] not found in grounding map"
+        )
+
+    old_annotation_string = species.getAnnotationString()
+
+    # current annotation misses a namespace for the rdf tag and cannot be used to create an etree
+    # we add a new tag arbitrarily named "element" and add a namespace to create valid xml
+    # such that it can be parsed by the etree.fromstring() method
+    new_annotation_string = (
+        """<element xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#" 
+        xmlns:dcterms="http://purl.org/dc/terms/" 
+        xmlns:vCard="http://www.w3.org/2001/vcard-rdf/3.0#" 
+        xmlns:vCard4="http://www.w3.org/2006/vcard/ns#" 
+        xmlns:bqbiol="http://biomodels.net/biology-qualifiers/" 
+        xmlns:bqmodel="http://biomodels.net/model-qualifiers/">"""
+        + old_annotation_string
+        + "</element>"
+    )
+
+    if not old_annotation_string:
+        logger.debug(f"[{model_id} species:{external_name}] had no annotations")
+        concept = Concept(
+            name=local_qual_name_reference,
+            display_name=external_name,
+            identifiers={},
+            context={},
+            units=units,
+        )
+        return concept
+
+    annotation_tree = etree.fromstring(new_annotation_string)
+
+    # Instead of URIs found in regular SBML, the resources found in the annotation strings for
+    # these qualitative species are already in CURIE format with the "urn" prefix and meta prefix
+    # attached. We remove the "urn" identifier and metaprefix later
+
+    description_strings_list = [
+        desc.attrib[RESOURCE_KEY]
+        for desc in annotation_tree.findall(
+            DESCRIPTION_XPATH, namespaces=PREFIX_MAP
+        )
+    ]
+
+    encoded_strings_list = [
+        desc.attrib[RESOURCE_KEY]
+        for desc in annotation_tree.findall(
+            ENCODED_XPATH, namespaces=PREFIX_MAP
+        )
+    ]
+
+    identifiers_curie_list, encoded_curies_list = [], []
+
+    # identifiers, typically given as MIRIAM URIs or URNs
+    # remove URNs, meta-prefixes and extract only prefixes and identifiers in tuple format
+    # for descriptions and encodings strings for a qualitative species
+    for description_string in description_strings_list:
+        # remove url quoting
+        description_string = unquote(description_string)
+
+        # for resources in the format of urn:{metaprefix}:hgnc.symbol:{identifier}
+        if "miriam" and "hgnc.symbol" in description_string:
+            pattern = r"hgnc\.symbol:(.*)"
+            match = re.search(pattern, description_string)
+            curie = ("hgnc", match.group(1))
+            identifiers_curie_list.append(curie)
+
+        # for all other resources
+        elif "miriam" in description_string:
+            pattern = r":([^:]+):([^:]+)$"
+            match = re.search(pattern, description_string)
+            curie = tuple(match.groups())
+            identifiers_curie_list.append(curie)
+
+    for encoded_string in encoded_strings_list:
+        encoded_string = unquote(encoded_string)
+        if "miriam" and "hgnc.symbol" in encoded_string:
+            pattern = r"hgnc\.symbol:(.*)"
+            match = re.search(pattern, encoded_string)
+            curie = ("hgnc", match.group(1))
+            encoded_curies_list.append(curie)
+
+        elif "miriam" in encoded_string:
+            pattern = r":([^:]+):([^:]+)$"
+            match = re.search(pattern, encoded_string)
+            curie = tuple(match.groups())
+            encoded_curies_list.append(curie)
+
+    context = {}
+
+    if ("ido", "C101887") in identifiers_curie_list:
+        identifiers_curie_list.remove(("ido", "C101887"))
+        identifiers_curie_list.append(("ncit", "C101887"))
+    if ("ncit", "C171133") in identifiers_curie_list:
+        identifiers_curie_list.remove(("ncit", "C171133"))
+    # Reclassify asymptomatic as a disease status
+    if ("ido", "0000569") in identifiers_curie_list and (
+        "ido",
+        "0000511",
+    ) in identifiers_curie_list:
+        identifiers_curie_list.remove(("ido", "0000569"))
+        context["disease_status"] = "ncit:C3833"
+    # Exposed shouldn't be susceptible
+    if ("ido", "0000514") in identifiers_curie_list and (
+        "ido",
+        "0000597",
+    ) in identifiers_curie_list:
+        identifiers_curie_list.remove(("ido", "0000514"))
+    # Break apart hospitalized and ICU
+    if ("ncit", "C25179") in identifiers_curie_list and (
+        "ncit",
+        "C53511",
+    ) in identifiers_curie_list:
+        identifiers_curie_list.remove(("ncit", "C53511"))
+        context["disease_status"] = "ncit:C53511"
+    # Remove redundant term for deceased due to disease progression
+    if ("ncit", "C28554") in identifiers_curie_list and (
+        "ncit",
+        "C168970",
+    ) in identifiers_curie_list:
+        identifiers_curie_list.remove(("ncit", "C168970"))
+
+    # Multiple semantically identical CURIEs with different prefixes associated with a species.
+    # Additionally, some species involve multiple agents and thus contain CURIEs for all agents
+    # involved. Deterministically choose the CURIE to use as the identifier for the concept by
+    # sorting the keys of the identifiers dictionary (prefix) alphabetically
+
+    # Sort the curie by prefix and then by the identifier
+    all_identifiers = dict(
+        sorted(
+            identifiers_curie_list,
+            reverse=True,
+            key=lambda curie_tuple: (curie_tuple[0], curie_tuple[1]),
+        )
+    )
+
+    if all_identifiers:
+        chosen_key = next(iter(all_identifiers))
+        identifiers = {chosen_key: all_identifiers[chosen_key]}
+    else:
+        identifiers = {}
+
+    # we capture context using the encoding curies as a set of generic properties
+    for idx, description_property in enumerate(sorted(encoded_curies_list)):
+        if description_property[0] == "ncit" and description_property[
+            1
+        ].startswith("000"):
+            prop = ("ido", description_property[1])
+        elif description_property[0] == "ido" and description_property[
+            1
+        ].startswith("C"):
+            prop = ("ncit", description_property[1])
+        else:
+            prop = description_property
+        context[f'property{"" if idx == 0 else idx}'] = ":".join(prop)
+
+    concept = Concept(
+        name=local_qual_name_reference,
+        display_name=external_name,
+        identifiers=identifiers,
+        context=context,
+        units=units,
+    )
+    concept = grounding_normalize(concept)
+    return concept
diff --git a/mira/sources/sbml/utils.py b/mira/sources/sbml/utils.py
new file mode 100644
index 000000000..b918eb549
--- /dev/null
+++ b/mira/sources/sbml/utils.py
@@ -0,0 +1,322 @@
+"""
+Module to define shared functionality between processing SBML and SBML Qual documents.
+"""
+
+
+import csv
+from collections import defaultdict
+from copy import deepcopy
+import logging
+from typing import Optional
+
+import bioregistry
+import libsbml
+import sympy
+from lxml import etree
+from tqdm import tqdm
+
+from mira.metamodel import *
+from mira.resources import get_resource_file
+
+
+class TqdmLoggingHandler(logging.Handler):
+    def __init__(self, level=logging.NOTSET):
+        super().__init__(level)
+
+    def emit(self, record):
+        try:
+            msg = self.format(record)
+            tqdm.write(msg)
+            self.flush()
+        except Exception:
+            self.handleError(record)
+
+
+PREFIX_MAP = {
+    "rdf": "http://www.w3.org/1999/02/22-rdf-syntax-ns#",
+    "dcterms": "http://purl.org/dc/terms/",
+    "vCard": "http://www.w3.org/2001/vcard-rdf/3.0#",
+    "vCard4": "http://www.w3.org/2006/vcard/ns#",
+    "bqbiol": "http://biomodels.net/biology-qualifiers/",
+    "bqmodel": "http://biomodels.net/model-qualifiers/",
+    "CopasiMT": "http://www.copasi.org/RDF/MiriamTerms#",
+    "copasi": "http://www.copasi.org/static/sbml",
+    "jd": "http://www.sys-bio.org/sbml",
+}
+
+RESOURCE_KEY = "{http://www.w3.org/1999/02/22-rdf-syntax-ns#}resource"
+
+
+class Converter:
+    """Wrapper around a curies converter with lazy loading."""
+
+    def __init__(self):
+        self.converter = None
+
+    def parse_uri(self, uri):
+        """Parse a URI into a prefix/identifier pair."""
+        if self.converter is None:
+            self.converter = bioregistry.get_converter(include_prefixes=True)
+        return self.converter.parse_uri(uri)
+
+    def uri_to_curie(self, uri: str) -> Optional[str]:
+        """Turn a URI into a CURIE."""
+        if self.converter is None:
+            self.converter = bioregistry.get_converter(include_prefixes=True)
+        return self.converter.compress(uri)
+
+
+converter = Converter()
+
+
+def get_model_annotations(sbml_model, *, converter, logger):
+    """Get the model annotations from an SBML model."""
+    ann_xml = sbml_model.getAnnotationString()
+    if not ann_xml:
+        return None
+    et = etree.fromstring(ann_xml)
+    annot_structure = {
+        "publications": "bqmodel:isDescribedBy",
+        "diseases": "bqbiol:is",
+        "taxa": "bqbiol:hasTaxon",
+        "model_type": "bqbiol:hasProperty",
+        "pathway": "bqbiol:isVersionOf",  # points to pathways
+        # bqbiol:isPartOf used to point to pathways
+        # bqbiol:occursIn used to point to pathways - might be subtle distinction with process vs. pathway
+        "homolog_to": "bqbiol:isHomologTo",
+        "base_model": "bqmodel:isDerivedFrom",  # derived from other biomodel
+        "has_part": "bqbiol:hasPart",  # points to pathways
+    }
+    annotations = defaultdict(list)
+    for key, path in annot_structure.items():
+        full_path = f"rdf:RDF/rdf:Description/{path}/rdf:Bag/rdf:li"
+        tags = et.findall(full_path, namespaces=PREFIX_MAP)
+        if not tags:
+            continue
+        for tag in tags:
+            uri = tag.attrib.get(RESOURCE_KEY)
+            if not uri:
+                continue
+            curie = converter.uri_to_curie(uri)
+            if not curie:
+                continue
+            annotations[key].append(curie)
+
+    model_id = get_model_id(sbml_model, converter=converter)
+    if model_id and model_id.startswith("BIOMD"):
+        license = "CC0"
+    else:
+        license = None
+
+    # TODO smarter split up taxon into pathogens and host organisms
+    hosts = []
+    pathogens = []
+    for curie in annotations.get("taxa", []):
+        if curie == "ncbitaxon:9606":
+            hosts.append(curie)
+        else:
+            pathogens.append(curie)
+
+    model_types = []
+    diseases = []
+    logged_curie = set()
+    for curie in annotations.get("model_type", []):
+        if curie.startswith("mamo:"):
+            model_types.append(curie)
+        elif any(
+            curie.startswith(f"{disease_prefix}:")
+            for disease_prefix in ["mondo", "doid", "efo"]
+        ) or _curie_is_ncit_disease(curie):
+            diseases.append(bioregistry.normalize_curie(curie))
+        elif curie not in logged_curie:
+            logged_curie.add(curie)
+            logger.debug(f"unhandled model_type: {curie}")
+
+    return Annotations(
+        name=sbml_model.getModel().getName(),
+        description=None,  # TODO
+        license=license,
+        authors=[],  # TODO,
+        references=annotations.get("publications", []),
+        # no time_scale, time_start, time_end, locations from biomodels
+        hosts=hosts,
+        pathogens=pathogens,
+        diseases=diseases,
+        model_types=model_types,
+    )
+
+
+def get_model_id(sbml_model, *, converter):
+    """Get the model ID from the model annotation."""
+    ann_xml = sbml_model.getAnnotationString()
+    if not ann_xml:
+        return None
+    et = etree.fromstring(ann_xml)
+    id_tags = et.findall(
+        "rdf:RDF/rdf:Description/bqmodel:is/rdf:Bag/rdf:li",
+        namespaces=PREFIX_MAP,
+    )
+    for id_tag in id_tags:
+        uri = id_tag.attrib.get(RESOURCE_KEY)
+        if uri:
+            prefix, identifier = converter.parse_uri(uri)
+            if prefix == "biomodels.db" and identifier.startswith("BIOMD"):
+                return identifier
+    return None
+
+
+def _curie_is_ncit_disease(curie: str) -> bool:
+    prefix, identifier = bioregistry.parse_curie(curie)
+    if prefix != "ncit":
+        return False
+    try:
+        import pyobo
+    except ImportError:
+        return False
+    else:
+        # return pyobo.has_ancestor("ncit", identifier, "ncit", "C2991")
+        return False
+
+
+def get_grounding_map():
+    def parse_identifier_grounding(grounding_str):
+        # Example: ido:0000511/infected population from which we want to get
+        # {'ido': '0000511'}
+        if not grounding_str:
+            return {}
+        return dict(
+            tuple(grounding.split("/")[0].split(":"))
+            for grounding in grounding_str.split("|")
+        )
+
+    def parse_context_grounding(grounding_str):
+        # Example: disease_severity=ncit:C25269/Symptomatic|
+        #          diagnosis=ncit:C113725/Undiagnosed
+        # from which we want to get {'disease_severity': 'ncit:C25269',
+        #                            'diagnosis': 'ncit:C113725'}
+        if not grounding_str:
+            return {}
+        return dict(
+            tuple(grounding.split("/")[0].split("="))
+            for grounding in grounding_str.split("|")
+        )
+
+    fname = get_resource_file("mapped_biomodels_groundings.csv")
+    mappings = {}
+    with open(fname, "r") as fh:
+        reader = csv.reader(fh)
+        next(reader)
+        for name, ids, context, model, mapped_ids, mapped_context in reader:
+            mappings[(model, name)] = (
+                parse_identifier_grounding(mapped_ids),
+                parse_context_grounding(mapped_context),
+            )
+
+    return mappings
+
+
+grounding_map = get_grounding_map()
+
+
+def get_sbml_units():
+    """Build up a mapping of SBML unit kinds to their names.
+
+    This is necessary because units are given as numbers.
+    """
+    module_contents = dir(libsbml)
+    unit_kinds = {
+        var: var.split("_")[-1].lower()
+        for var in module_contents
+        if var.startswith("UNIT_KIND") and var != "UNIT_KIND_INVALID"
+    }
+    unit_kinds = {
+        getattr(libsbml, var): unit_name
+        for var, unit_name in unit_kinds.items()
+    }
+    return unit_kinds
+
+
+SBML_UNITS = get_sbml_units()
+
+
+def grounding_normalize(concept):
+    # A common curation mistake in BioModels: mixing up IDO and NCIT identifiers
+    for k, v in deepcopy(concept.identifiers).items():
+        if k == "ncit" and v.startswith("000"):
+            concept.identifiers.pop(k)
+            concept.identifiers["ido"] = v
+        elif k == "ido" and v.startswith("C"):
+            concept.identifiers.pop(k)
+            concept.identifiers["ncit"] = v
+    # Has property acquired immunity == immune population
+    if not concept.get_curie()[0] and concept.context == {
+        "property": "ido:0000621"
+    }:
+        concept.identifiers["ido"] = "0000592"
+        concept.context = {}
+    elif concept.get_curie() == ("ido", "0000514") and concept.context == {
+        "property": "ido:0000468"
+    }:
+        concept.context = {}
+    # Different ways of expression immune/recovered
+    elif concept.get_curie() == ("ncit", "C171133") and concept.context == {
+        "property": "ido:0000621"
+    }:
+        concept.identifiers = {"ido": "0000592"}
+        concept.context = {}
+    # Different terms for dead/deceased
+    elif concept.get_curie() == ("ncit", "C168970"):
+        concept.identifiers = {"ncit": "C28554"}
+    return concept
+
+
+def get_units(unit_definitions):
+    """Return units from a list of unit definition blocks."""
+    units = {}
+    for unit_def in unit_definitions:
+        units[unit_def.id] = process_unit_definition(unit_def)
+    return units
+
+
+def process_unit_definition(unit_definition):
+    """Process a unit definition block to extract an expression."""
+    full_unit_expr = sympy.Integer(1)
+    for unit in unit_definition.units:
+        unit_symbol_str = SBML_UNITS[unit.kind]
+        # We assume person instead of item here
+        if unit_symbol_str in unit_symbol_mappings:
+            unit_symbol_str = unit_symbol_mappings[unit_symbol_str]
+        unit_symbol = sympy.Symbol(unit_symbol_str)
+        # We do this to avoid the spurious factors in the expression
+        if unit.multiplier != 1:
+            unit_symbol *= unit.multiplier
+        if unit.exponent != 1:
+            unit_symbol **= unit.exponent
+        if unit.scale != 0:
+            unit_symbol *= 10**unit.scale
+        full_unit_expr *= unit_symbol
+    # We apply some mappings for canonical units we want to change
+    # We use equals here since == in sympy is structural equality
+    for k, v in unit_expression_mappings.items():
+        if full_unit_expr.equals(k):
+            full_unit_expr = v
+    return full_unit_expr
+
+
+unit_symbol_mappings = {
+    "item": "person",
+    "metre": "meter",
+    "litre": "liter",
+}
+unit_expression_mappings = {
+    86400.0 * sympy.Symbol("second"): sympy.Symbol("day"),
+    1 / (86400.0 * sympy.Symbol("second")): 1 / sympy.Symbol("day"),
+    1
+    / (86400.0 * sympy.Symbol("second") * sympy.Symbol("person")): 1
+    / (sympy.Symbol("day") * sympy.Symbol("person")),
+    31536000.0 * sympy.Symbol("second"): sympy.Symbol("year"),
+    1 / (31536000.0 * sympy.Symbol("second")): 1 / sympy.Symbol("year"),
+    1
+    / (31536000.0 * sympy.Symbol("second") * sympy.Symbol("person")): 1
+    / (sympy.Symbol("year") * sympy.Symbol("person")),
+}
diff --git a/notebooks/SBML Qual Demo.ipynb b/notebooks/SBML Qual Demo.ipynb
new file mode 100644
index 000000000..e216a632d
--- /dev/null
+++ b/notebooks/SBML Qual Demo.ipynb	
@@ -0,0 +1,279 @@
+{
+ "cells": [
+  {
+   "cell_type": "code",
+   "execution_count": 1,
+   "id": "e462d2ab-9a9b-412e-a85c-6020cc89c226",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "import requests\n",
+    "\n",
+    "from mira.sources.biomodels import get_sbml_model\n",
+    "from mira.sources.sbml.qual_api import template_model_from_sbml_qual_string\n",
+    "\n",
+    "MODEL_URL = \"https://git-r3lab.uni.lu/covid/models/-/raw/master/Executable%20Modules/SBML_qual_build/sbml/Orf3a_stable.sbml?ref_type=heads\"\n",
+    "BIOMODEL_ID = \"BIOMD0000000562\""
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "c74ce658-5971-44d5-afdf-cf78c0526198",
+   "metadata": {},
+   "source": [
+    "## We load in biomodel BIOMD0000000562 from the biomodel's database and convert it to a semantically similar MIRA template model"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 2,
+   "id": "fb528cb1-5a93-4092-858b-be3e7daa0779",
+   "metadata": {},
+   "outputs": [],
+   "source": [
+    "model_text = get_sbml_model(BIOMODEL_ID)\n",
+    "tm = template_model_from_sbml_qual_string(model_text)"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "a7283cf9-1821-4ba2-9cf9-c5eb94d15d68",
+   "metadata": {},
+   "source": [
+    "## Identify all concepts loaded in from the biomodel\n",
+    "\n",
+    "Qualitative species' annotations are not provided for models on the biomodel's website"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 3,
+   "id": "6a446a48-7f96-4b63-8ef7-e27bb52a0cd0",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "erk\n",
+      "ikk\n",
+      "gsk3\n",
+      "nfkb\n",
+      "ask1\n",
+      "ras\n",
+      "egf\n",
+      "egfr\n",
+      "traf2\n",
+      "ikb\n",
+      "map3k1\n",
+      "tnfr\n",
+      "ap1\n",
+      "mek\n",
+      "mkk4\n",
+      "ex\n",
+      "tnfa\n",
+      "raf1\n",
+      "map3k7\n",
+      "mkk7\n",
+      "cjun\n",
+      "sos\n",
+      "jnk\n",
+      "pi3k\n",
+      "p38\n",
+      "akt\n",
+      "ph\n",
+      "nik\n"
+     ]
+    }
+   ],
+   "source": [
+    "for initial in tm.initials:\n",
+    "    print(initial)"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "70bcc3e5-0561-44da-b0f6-63546f23ee6f",
+   "metadata": {},
+   "source": [
+    "## Qualitative models do not have parameters"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 4,
+   "id": "fe438910-9775-4a53-abf8-58627c2687b5",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "text/plain": [
+       "{}"
+      ]
+     },
+     "execution_count": 4,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "tm.parameters"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "4f106e1a-05ec-4da1-bf42-ab75dceaeb7d",
+   "metadata": {},
+   "source": [
+    "## Visualize the template model structure loaded in from a SBML Qual document from the biomodels website"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 5,
+   "id": "748485f3-a5b9-42af-9279-35cce125ea08",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "image/png": "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",
+      "text/plain": [
+       "<IPython.core.display.Image object>"
+      ]
+     },
+     "execution_count": 5,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "tm.draw_jupyter()"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "fe1a8c56-19ea-4636-8d7d-0ca4420af49e",
+   "metadata": {},
+   "source": [
+    "## We then convert an SBML Qual document from the Covid-19 disease map\n",
+    "\n",
+    "The specific file is here: https://git-r3lab.uni.lu/covid/models/-/blob/master/Executable%20Modules/SBML_qual_build/sbml/Orf3a_stable.sbml?ref_type=heads\n"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 6,
+   "id": "1013581c-2a26-4f0c-b6e1-181fecd2b0c2",
+   "metadata": {},
+   "outputs": [
+    {
+     "data": {
+      "image/png": "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",
+      "text/plain": [
+       "<IPython.core.display.Image object>"
+      ]
+     },
+     "execution_count": 6,
+     "metadata": {},
+     "output_type": "execute_result"
+    }
+   ],
+   "source": [
+    "model_text = requests.get(MODEL_URL).text\n",
+    "tm = template_model_from_sbml_qual_string(model_text)\n",
+    "tm.draw_jupyter()"
+   ]
+  },
+  {
+   "cell_type": "markdown",
+   "id": "e8fb68bf-2fb0-4168-a8c5-345062e638e9",
+   "metadata": {},
+   "source": [
+    "## We identify all concepts and their identifiers from the model that is apart of the Covid-19 disease map\n",
+    "\n",
+    "Qualitative species' annotations have been provided for most of the species' in the model"
+   ]
+  },
+  {
+   "cell_type": "code",
+   "execution_count": 7,
+   "id": "272b8133-3f48-4bba-ab67-7375bcca0483",
+   "metadata": {},
+   "outputs": [
+    {
+     "name": "stdout",
+     "output_type": "stream",
+     "text": [
+      "Hops Complex_complex | {'uniprot': 'J9TC74'}\n",
+      "IKBKG/IKBKB/CHUK_complex | {'hgnc': '1974'}\n",
+      "LPS/TLR4/MYD88_complex | {'hgnc': '11850'}\n",
+      "P65/P015_complex | {'hgnc': '7794'}\n",
+      "LPS/TNF α/IL-1_complex | {'hgnc': '11916'}\n",
+      "TAB2/TAB3/TAK1_complex | {'hgnc': '17075'}\n",
+      "TRIM27/TRIM21_complex | {'hgnc': '11312'}\n",
+      "TLR7/8/9_complex | {'hgnc': '15631'}\n",
+      "TRIM30a/TRIM38_complex | {'hgnc': '10059'}\n",
+      "NEMO/IKKA/IKKB_complex | {'hgnc': '1974'}\n",
+      "TRIM14/TRIM23_complex | {'hgnc': '16283'}\n",
+      "NFKB1:NFKNIA_complex | {}\n",
+      "Orf3a | {}\n",
+      "TRIM59 | {'pubmed': '22588174'}\n",
+      "NLRP3 | {'hgnc': '16400'}\n",
+      "PYCARD_ubiquitinated_ubiquitinated_ubiquitinated | {'pubmed': '32172672'}\n",
+      "TRAF3 | {'hgnc': '12033'}\n",
+      "CASP1 | {'hgnc': '1499'}\n",
+      "TRAF6 | {'hgnc': '12036'}\n",
+      "double-stranded RNA_rna | {}\n",
+      "ssRNA_rna | {}\n",
+      "TICAM1 | {'hgnc': '18348'}\n",
+      "MYD88 | {'hgnc': '7562'}\n",
+      "TRIM38 | {'hgnc': '10059'}\n",
+      "TRIM22 | {'hgnc': '16379'}\n",
+      "NFKBIA_phosphorylated_ubiquitinated_ubiquitinated_ubiquitinated | {'hgnc': '7797'}\n",
+      "TRIM29 | {'hgnc': '17274'}\n",
+      "TRIM23 | {'hgnc': '660'}\n",
+      "TRIM9 | {'hgnc': '16288'}\n",
+      "BTRC | {'hgnc': '1144'}\n",
+      "TRIM39 | {'hgnc': '10065'}\n",
+      "CACTIN | {'hgnc': '29938'}\n",
+      "NFKB1 | {'hgnc': '7794'}\n",
+      "S | {'uniprot': 'P0DTC2'}\n",
+      "E | {'ncbiprotein': '1796318600'}\n",
+      "SERPINF2 | {'hgnc': '9075'}\n",
+      "IFNB1 | {'hgnc': '5434'}\n",
+      "IL1b | {'hgnc': '5992'}\n",
+      "TLR3 | {'hgnc': '11849'}\n",
+      "ORF8b | {'ncbiprotein': 'BCD58760'}\n",
+      "IRF6 | {}\n",
+      "TLR4 | {}\n"
+     ]
+    }
+   ],
+   "source": [
+    "for initial in tm.initials.values():\n",
+    "    print(f\"{initial.concept.display_name} | {initial.concept.identifiers}\")"
+   ]
+  }
+ ],
+ "metadata": {
+  "kernelspec": {
+   "display_name": "Python 3 (ipykernel)",
+   "language": "python",
+   "name": "python3"
+  },
+  "language_info": {
+   "codemirror_mode": {
+    "name": "ipython",
+    "version": 3
+   },
+   "file_extension": ".py",
+   "mimetype": "text/x-python",
+   "name": "python",
+   "nbconvert_exporter": "python",
+   "pygments_lexer": "ipython3",
+   "version": "3.10.12"
+  }
+ },
+ "nbformat": 4,
+ "nbformat_minor": 5
+}
diff --git a/notebooks/evaluation_2024.03/epi_scenario5/scenario5_regnet.json b/notebooks/evaluation_2024.03/epi_scenario5/scenario5_regnet.json
index 0a21ae62c..2cde7b44f 100644
--- a/notebooks/evaluation_2024.03/epi_scenario5/scenario5_regnet.json
+++ b/notebooks/evaluation_2024.03/epi_scenario5/scenario5_regnet.json
@@ -145,7 +145,7 @@
    },
    {
     "id": "t3",
-    "source": "I",
+    "source": "Lactose",
     "target": "I_Lactose",
     "sign": true,
     "properties": {
@@ -156,8 +156,8 @@
    {
     "id": "t4",
     "source": "I",
-    "target": "Lactose",
-    "sign": false,
+    "target": "I_Lactose",
+    "sign": true,
     "properties": {
      "name": "t4",
      "rate_constant": "k_3"
@@ -165,8 +165,8 @@
    },
    {
     "id": "t5",
-    "source": "Lactose",
-    "target": "I",
+    "source": "I",
+    "target": "Lactose",
     "sign": false,
     "properties": {
      "name": "t5",
@@ -175,18 +175,18 @@
    },
    {
     "id": "t6",
-    "source": "I_Lactose",
+    "source": "Lactose",
     "target": "I",
-    "sign": true,
+    "sign": false,
     "properties": {
      "name": "t6",
-     "rate_constant": "k_4"
+     "rate_constant": "k_3"
     }
    },
    {
     "id": "t7",
     "source": "I_Lactose",
-    "target": "Lactose",
+    "target": "I",
     "sign": true,
     "properties": {
      "name": "t7",
@@ -195,171 +195,201 @@
    },
    {
     "id": "t8",
+    "source": "I_Lactose",
+    "target": "Lactose",
+    "sign": true,
+    "properties": {
+     "name": "t8",
+     "rate_constant": "k_4"
+    }
+   },
+   {
+    "id": "t9",
     "source": "I",
     "target": "I_Op",
     "sign": true,
     "properties": {
-     "name": "t8",
+     "name": "t9",
      "rate_constant": "k_5"
     }
    },
    {
-    "id": "t9",
+    "id": "t10",
+    "source": "Op",
+    "target": "I_Op",
+    "sign": true,
+    "properties": {
+     "name": "t10",
+     "rate_constant": "k_5"
+    }
+   },
+   {
+    "id": "t11",
     "source": "I",
     "target": "Op",
     "sign": false,
     "properties": {
-     "name": "t9",
+     "name": "t11",
      "rate_constant": "k_5"
     }
    },
    {
-    "id": "t10",
+    "id": "t12",
     "source": "Op",
     "target": "I",
     "sign": false,
     "properties": {
-     "name": "t10",
+     "name": "t12",
      "rate_constant": "k_5"
     }
    },
    {
-    "id": "t11",
+    "id": "t13",
     "source": "I_Op",
     "target": "I",
     "sign": true,
     "properties": {
-     "name": "t11",
+     "name": "t13",
      "rate_constant": "k_6"
     }
    },
    {
-    "id": "t12",
+    "id": "t14",
     "source": "I_Op",
     "target": "Op",
     "sign": true,
     "properties": {
-     "name": "t12",
+     "name": "t14",
      "rate_constant": "k_6"
     }
    },
    {
-    "id": "t13",
+    "id": "t15",
+    "source": "RNAP",
+    "target": "RNAP_Op",
+    "sign": true,
+    "properties": {
+     "name": "t15",
+     "rate_constant": "k_7"
+    }
+   },
+   {
+    "id": "t16",
     "source": "Op",
     "target": "RNAP_Op",
     "sign": true,
     "properties": {
-     "name": "t13",
+     "name": "t16",
      "rate_constant": "k_7"
     }
    },
    {
-    "id": "t14",
+    "id": "t17",
     "source": "RNAP",
     "target": "Op",
     "sign": false,
     "properties": {
-     "name": "t14",
+     "name": "t17",
      "rate_constant": "k_7"
     }
    },
    {
-    "id": "t15",
+    "id": "t18",
     "source": "Op",
     "target": "RNAP",
     "sign": false,
     "properties": {
-     "name": "t15",
+     "name": "t18",
      "rate_constant": "k_7"
     }
    },
    {
-    "id": "t16",
+    "id": "t19",
     "source": "RNAP_Op",
     "target": "RNAP",
     "sign": true,
     "properties": {
-     "name": "t16",
+     "name": "t19",
      "rate_constant": "k_8"
     }
    },
    {
-    "id": "t17",
+    "id": "t20",
     "source": "RNAP_Op",
     "target": "Op",
     "sign": true,
     "properties": {
-     "name": "t17",
+     "name": "t20",
      "rate_constant": "k_8"
     }
    },
    {
-    "id": "t18",
+    "id": "t21",
     "source": "RNAP_Op",
     "target": "RNAP",
     "sign": true,
     "properties": {
-     "name": "t18",
+     "name": "t21",
      "rate_constant": "k_9"
     }
    },
    {
-    "id": "t19",
+    "id": "t22",
     "source": "RNAP_Op",
     "target": "Op",
     "sign": true,
     "properties": {
-     "name": "t19",
+     "name": "t22",
      "rate_constant": "k_9"
     }
    },
    {
-    "id": "t20",
+    "id": "t23",
     "source": "RNAP_Op",
     "target": "r_lac",
     "sign": true,
     "properties": {
-     "name": "t20",
+     "name": "t23",
      "rate_constant": "k_9"
     }
    },
    {
-    "id": "t21",
+    "id": "t24",
     "source": "r_lac",
     "target": "Z",
     "sign": true,
     "properties": {
-     "name": "t21",
+     "name": "t24",
      "rate_constant": "k_10"
     }
    },
    {
-    "id": "t22",
+    "id": "t25",
     "source": "Z",
     "target": "Lactose",
     "sign": false,
     "properties": {
-     "name": "t22",
+     "name": "t25",
      "rate_constant": "k_11"
     }
    },
    {
-    "id": "t23",
+    "id": "t26",
     "source": "Lactose",
     "target": "Z",
     "sign": false,
     "properties": {
-     "name": "t23",
+     "name": "t26",
      "rate_constant": "k_11"
     }
    },
    {
-    "id": "t24",
+    "id": "t27",
     "source": "I_Lactose",
     "target": "Lactose",
     "sign": true,
     "properties": {
-     "name": "t24",
+     "name": "t27",
      "rate_constant": "k_14"
     }
    }
@@ -451,8 +481,8 @@
     },
     {
      "target": "t4",
-     "expression": "I*Lactose*k_3",
-     "expression_mathml": "<apply><times/><ci>I</ci><ci>Lactose</ci><ci>k_3</ci></apply>"
+     "expression": "0",
+     "expression_mathml": "<cn>0</cn>"
     },
     {
      "target": "t5",
@@ -461,8 +491,8 @@
     },
     {
      "target": "t6",
-     "expression": "I_Lactose*k_4",
-     "expression_mathml": "<apply><times/><ci>I_Lactose</ci><ci>k_4</ci></apply>"
+     "expression": "I*Lactose*k_3",
+     "expression_mathml": "<apply><times/><ci>I</ci><ci>Lactose</ci><ci>k_3</ci></apply>"
     },
     {
      "target": "t7",
@@ -471,8 +501,8 @@
     },
     {
      "target": "t8",
-     "expression": "I*Op*k_5",
-     "expression_mathml": "<apply><times/><ci>I</ci><ci>Op</ci><ci>k_5</ci></apply>"
+     "expression": "I_Lactose*k_4",
+     "expression_mathml": "<apply><times/><ci>I_Lactose</ci><ci>k_4</ci></apply>"
     },
     {
      "target": "t9",
@@ -481,76 +511,91 @@
     },
     {
      "target": "t10",
+     "expression": "0",
+     "expression_mathml": "<cn>0</cn>"
+    },
+    {
+     "target": "t11",
      "expression": "I*Op*k_5",
      "expression_mathml": "<apply><times/><ci>I</ci><ci>Op</ci><ci>k_5</ci></apply>"
     },
     {
-     "target": "t11",
+     "target": "t12",
+     "expression": "I*Op*k_5",
+     "expression_mathml": "<apply><times/><ci>I</ci><ci>Op</ci><ci>k_5</ci></apply>"
+    },
+    {
+     "target": "t13",
      "expression": "I_Op*k_6",
      "expression_mathml": "<apply><times/><ci>I_Op</ci><ci>k_6</ci></apply>"
     },
     {
-     "target": "t12",
+     "target": "t14",
      "expression": "I_Op*k_6",
      "expression_mathml": "<apply><times/><ci>I_Op</ci><ci>k_6</ci></apply>"
     },
     {
-     "target": "t13",
+     "target": "t15",
      "expression": "Op*RNAP*k_7",
      "expression_mathml": "<apply><times/><ci>Op</ci><ci>RNAP</ci><ci>k_7</ci></apply>"
     },
     {
-     "target": "t14",
+     "target": "t16",
+     "expression": "0",
+     "expression_mathml": "<cn>0</cn>"
+    },
+    {
+     "target": "t17",
      "expression": "Op*RNAP*k_7",
      "expression_mathml": "<apply><times/><ci>Op</ci><ci>RNAP</ci><ci>k_7</ci></apply>"
     },
     {
-     "target": "t15",
+     "target": "t18",
      "expression": "Op*RNAP*k_7",
      "expression_mathml": "<apply><times/><ci>Op</ci><ci>RNAP</ci><ci>k_7</ci></apply>"
     },
     {
-     "target": "t16",
+     "target": "t19",
      "expression": "RNAP_Op*k_8",
      "expression_mathml": "<apply><times/><ci>RNAP_Op</ci><ci>k_8</ci></apply>"
     },
     {
-     "target": "t17",
+     "target": "t20",
      "expression": "RNAP_Op*k_8",
      "expression_mathml": "<apply><times/><ci>RNAP_Op</ci><ci>k_8</ci></apply>"
     },
     {
-     "target": "t18",
+     "target": "t21",
      "expression": "RNAP_Op*k_9",
      "expression_mathml": "<apply><times/><ci>RNAP_Op</ci><ci>k_9</ci></apply>"
     },
     {
-     "target": "t19",
+     "target": "t22",
      "expression": "RNAP_Op*k_9",
      "expression_mathml": "<apply><times/><ci>RNAP_Op</ci><ci>k_9</ci></apply>"
     },
     {
-     "target": "t20",
+     "target": "t23",
      "expression": "RNAP_Op*k_9",
      "expression_mathml": "<apply><times/><ci>RNAP_Op</ci><ci>k_9</ci></apply>"
     },
     {
-     "target": "t21",
+     "target": "t24",
      "expression": "k_10*r_lac",
      "expression_mathml": "<apply><times/><ci>k_10</ci><ci>r_lac</ci></apply>"
     },
     {
-     "target": "t22",
+     "target": "t25",
      "expression": "Lactose*Z*k_11",
      "expression_mathml": "<apply><times/><ci>Lactose</ci><ci>Z</ci><ci>k_11</ci></apply>"
     },
     {
-     "target": "t23",
+     "target": "t26",
      "expression": "Lactose*Z*k_11",
      "expression_mathml": "<apply><times/><ci>Lactose</ci><ci>Z</ci><ci>k_11</ci></apply>"
     },
     {
-     "target": "t24",
+     "target": "t27",
      "expression": "I_Lactose*k_14",
      "expression_mathml": "<apply><times/><ci>I_Lactose</ci><ci>k_14</ci></apply>"
     },
diff --git a/notebooks/hackathon_2024.02/scenario6/scenario6_chen_regnet.json b/notebooks/hackathon_2024.02/scenario6/scenario6_chen_regnet.json
index f2e9b9e92..ed15f71e8 100644
--- a/notebooks/hackathon_2024.02/scenario6/scenario6_chen_regnet.json
+++ b/notebooks/hackathon_2024.02/scenario6/scenario6_chen_regnet.json
@@ -203,21 +203,6 @@
  "semantics": {
   "ode": {
    "rates": [
-    {
-     "target": "r_1",
-     "expression": "V_0*r_1",
-     "expression_mathml": "<apply><times/><ci>V_0</ci><ci>r_1</ci></apply>"
-    },
-    {
-     "target": "r_2",
-     "expression": "V_1*r_2",
-     "expression_mathml": "<apply><times/><ci>V_1</ci><ci>r_2</ci></apply>"
-    },
-    {
-     "target": "r_3",
-     "expression": "V_2*r_3",
-     "expression_mathml": "<apply><times/><ci>V_2</ci><ci>r_3</ci></apply>"
-    },
     {
      "target": "t1",
      "expression": "L_0*r_1",
@@ -233,21 +218,6 @@
      "expression": "L_2*r_3",
      "expression_mathml": "<apply><times/><ci>L_2</ci><ci>r_3</ci></apply>"
     },
-    {
-     "target": "p_1",
-     "expression": "U_0*p_1",
-     "expression_mathml": "<apply><times/><ci>U_0</ci><ci>p_1</ci></apply>"
-    },
-    {
-     "target": "p_2",
-     "expression": "U_1*p_2",
-     "expression_mathml": "<apply><times/><ci>U_1</ci><ci>p_2</ci></apply>"
-    },
-    {
-     "target": "p_3",
-     "expression": "U_2*p_3",
-     "expression_mathml": "<apply><times/><ci>U_2</ci><ci>p_3</ci></apply>"
-    },
     {
      "target": "t4",
      "expression": "C_0*p_1",
@@ -262,6 +232,36 @@
      "target": "t6",
      "expression": "C_2*p_1",
      "expression_mathml": "<apply><times/><ci>C_2</ci><ci>p_1</ci></apply>"
+    },
+    {
+     "target": "r_1",
+     "expression": "V_0*r_1",
+     "expression_mathml": "<apply><times/><ci>V_0</ci><ci>r_1</ci></apply>"
+    },
+    {
+     "target": "r_2",
+     "expression": "V_1*r_2",
+     "expression_mathml": "<apply><times/><ci>V_1</ci><ci>r_2</ci></apply>"
+    },
+    {
+     "target": "r_3",
+     "expression": "V_2*r_3",
+     "expression_mathml": "<apply><times/><ci>V_2</ci><ci>r_3</ci></apply>"
+    },
+    {
+     "target": "p_1",
+     "expression": "U_0*p_1",
+     "expression_mathml": "<apply><times/><ci>U_0</ci><ci>p_1</ci></apply>"
+    },
+    {
+     "target": "p_2",
+     "expression": "U_1*p_2",
+     "expression_mathml": "<apply><times/><ci>U_1</ci><ci>p_2</ci></apply>"
+    },
+    {
+     "target": "p_3",
+     "expression": "U_2*p_3",
+     "expression_mathml": "<apply><times/><ci>U_2</ci><ci>p_3</ci></apply>"
     }
    ],
    "observables": [],
diff --git a/notebooks/hackathon_2024.02/scenario6/scenario6_hunt_regnet.json b/notebooks/hackathon_2024.02/scenario6/scenario6_hunt_regnet.json
index b1fa6dc36..db8d836a8 100644
--- a/notebooks/hackathon_2024.02/scenario6/scenario6_hunt_regnet.json
+++ b/notebooks/hackathon_2024.02/scenario6/scenario6_hunt_regnet.json
@@ -126,49 +126,69 @@
     "id": "t5",
     "source": "p_2",
     "target": "r_2",
-    "sign": false,
+    "sign": true,
     "properties": {
      "name": "t5",
-     "rate_constant": "V_1"
+     "rate_constant": "C_1"
     }
    },
    {
     "id": "t6",
+    "source": "p_2",
+    "target": "r_2",
+    "sign": false,
+    "properties": {
+     "name": "t6",
+     "rate_constant": "V_1"
+    }
+   },
+   {
+    "id": "t7",
     "source": "r_2",
     "target": "p_2",
     "sign": true,
     "properties": {
-     "name": "t6",
+     "name": "t7",
      "rate_constant": "L_1"
     }
    },
    {
-    "id": "t7",
+    "id": "t8",
     "source": "p_1",
     "target": "r_3",
     "sign": true,
     "properties": {
-     "name": "t7",
+     "name": "t8",
      "rate_constant": "C_2"
     }
    },
    {
-    "id": "t8",
+    "id": "t9",
+    "source": "p_3",
+    "target": "r_3",
+    "sign": true,
+    "properties": {
+     "name": "t9",
+     "rate_constant": "C_2"
+    }
+   },
+   {
+    "id": "t10",
     "source": "p_2",
     "target": "r_3",
     "sign": false,
     "properties": {
-     "name": "t8",
+     "name": "t10",
      "rate_constant": "V_2"
     }
    },
    {
-    "id": "t9",
+    "id": "t11",
     "source": "r_3",
     "target": "p_3",
     "sign": true,
     "properties": {
-     "name": "t9",
+     "name": "t11",
      "rate_constant": "L_2"
     }
    }
@@ -278,11 +298,6 @@
      "expression": "L_0*r_1/(1 + p_1/d_0)",
      "expression_mathml": "<apply><divide/><apply><times/><ci>L_0</ci><ci>r_1</ci></apply><apply><plus/><cn>1</cn><apply><divide/><ci>p_1</ci><ci>d_0</ci></apply></apply></apply>"
     },
-    {
-     "target": "p_1",
-     "expression": "U_0*p_1",
-     "expression_mathml": "<apply><times/><ci>U_0</ci><ci>p_1</ci></apply>"
-    },
     {
      "target": "t4",
      "expression": "C_1*p_1/(1 + p_2/a_1)",
@@ -290,34 +305,49 @@
     },
     {
      "target": "t5",
+     "expression": "0",
+     "expression_mathml": "<cn>0</cn>"
+    },
+    {
+     "target": "t6",
      "expression": "V_1*r_2/(1 + p_2/b_1)",
      "expression_mathml": "<apply><divide/><apply><times/><ci>V_1</ci><ci>r_2</ci></apply><apply><plus/><cn>1</cn><apply><divide/><ci>p_2</ci><ci>b_1</ci></apply></apply></apply>"
     },
     {
-     "target": "t6",
+     "target": "t7",
      "expression": "L_1*r_2/(1 + p_2/d_1)",
      "expression_mathml": "<apply><divide/><apply><times/><ci>L_1</ci><ci>r_2</ci></apply><apply><plus/><cn>1</cn><apply><divide/><ci>p_2</ci><ci>d_1</ci></apply></apply></apply>"
     },
     {
-     "target": "p_2",
-     "expression": "U_1*p_2",
-     "expression_mathml": "<apply><times/><ci>U_1</ci><ci>p_2</ci></apply>"
-    },
-    {
-     "target": "t7",
+     "target": "t8",
      "expression": "C_2*p_1/(1 + p_3/a_2)",
      "expression_mathml": "<apply><divide/><apply><times/><ci>C_2</ci><ci>p_1</ci></apply><apply><plus/><cn>1</cn><apply><divide/><ci>p_3</ci><ci>a_2</ci></apply></apply></apply>"
     },
     {
-     "target": "t8",
+     "target": "t9",
+     "expression": "0",
+     "expression_mathml": "<cn>0</cn>"
+    },
+    {
+     "target": "t10",
      "expression": "V_2*r_3/(1 + p_2/b_2)",
      "expression_mathml": "<apply><divide/><apply><times/><ci>V_2</ci><ci>r_3</ci></apply><apply><plus/><cn>1</cn><apply><divide/><ci>p_2</ci><ci>b_2</ci></apply></apply></apply>"
     },
     {
-     "target": "t9",
+     "target": "t11",
      "expression": "L_2*r_3/(1 + p_3/d_2)",
      "expression_mathml": "<apply><divide/><apply><times/><ci>L_2</ci><ci>r_3</ci></apply><apply><plus/><cn>1</cn><apply><divide/><ci>p_3</ci><ci>d_2</ci></apply></apply></apply>"
     },
+    {
+     "target": "p_1",
+     "expression": "U_0*p_1",
+     "expression_mathml": "<apply><times/><ci>U_0</ci><ci>p_1</ci></apply>"
+    },
+    {
+     "target": "p_2",
+     "expression": "U_1*p_2",
+     "expression_mathml": "<apply><times/><ci>U_1</ci><ci>p_2</ci></apply>"
+    },
     {
      "target": "p_3",
      "expression": "U_2*p_3",
diff --git a/scripts/covid19_diseasemaps/process_covid19_diseasemaps_sbml.py b/scripts/covid19_diseasemaps/process_covid19_diseasemaps_sbml.py
new file mode 100644
index 000000000..3e4a4d97f
--- /dev/null
+++ b/scripts/covid19_diseasemaps/process_covid19_diseasemaps_sbml.py
@@ -0,0 +1,57 @@
+import json
+import tqdm
+import requests
+
+from mira.sources.sbml import template_model_from_sbml_qual_string
+from mira.modeling.amr.regnet import template_model_to_regnet_json
+from mira.sources.biomodels import get_sbml_model
+
+
+
+models = [
+    "Apoptosis",
+    "Coagulation-pathway",
+    "ER_Stress",
+    "ETC",
+    "E_protein",
+    "HMOX1_Pathway",
+    "IFN-lambda",
+    "Interferon1",
+    "JNK_pathway",
+    "Kynurenine_pathway",
+    "NLRP3_Activation",
+    "Nsp14",
+    "Nsp4_Nsp6",
+    "Nsp9_protein",
+    "Orf10_Cul2_pathway",
+    "Orf3a",
+    "PAMP_signaling",
+    "Pyrimidine_deprivation",
+    "RTC-and-transcription",
+    "Renin_angiotensin",
+    "TGFB_pathway",
+    "Virus_replication_cycle",
+]
+
+
+SBML_URL_BASE = (
+    "https://git-r3lab.uni.lu/covid/models/-/raw/master/"
+    "Executable%20Modules/SBML_qual_build/sbml"
+)
+
+
+if __name__ == "__main__":
+    for model in tqdm.tqdm(models):
+        url = f"{SBML_URL_BASE}/{model}_stable.sbml"
+        model_text = requests.get(url).text
+        tm = template_model_from_sbml_qual_string(model_text)
+        regnet = template_model_to_regnet_json(tm)
+        with open(f"regnet_amr_sbml/{model}.json", "w") as fh:
+            json.dump(regnet, fh, indent=1)
+
+    model_id = "BIOMD0000000562"
+    model_text = get_sbml_model(model_id)
+    tm = template_model_from_sbml_qual_string(model_text)
+    regnet = template_model_to_regnet_json(tm)
+    with open(f"regnet_amr_sbml/{model_id}.json", "w") as fh:
+        json.dump(regnet, fh, indent=1)
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Apoptosis.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Apoptosis.json
new file mode 100644
index 000000000..8eca998fb
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Apoptosis.json
@@ -0,0 +1,625 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "Orf7a",
+    "name": "Orf7a",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "1489674"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E",
+    "name": "E",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32785274"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAD",
+    "name": "BAD",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q92934"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FASLG",
+    "name": "FASLG",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P48023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FAS/FASL_complex",
+    "name": "FAS/FASL_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P25445"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TNF",
+    "name": "TNF",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P01375"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TNF/TNFRSF1A_complex",
+    "name": "TNF/TNFRSF1A_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P01375"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2/MCL1/BCL2L1_complex",
+    "name": "BCL2/MCL1/BCL2L1_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P10415"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FADD",
+    "name": "FADD",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q13158"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRADD",
+    "name": "TRADD",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q15628"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRADD/FADD_complex",
+    "name": "TRADD/FADD_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q13158"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CYCS",
+    "name": "CYCS",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P99999"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "APAF1",
+    "name": "APAF1",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O14727"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP9_cell",
+    "name": "CASP9_cell",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P55211"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AKT1",
+    "name": "AKT1",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P31749"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Apoptosome_complex",
+    "name": "Apoptosome_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O14727"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M",
+    "name": "M",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16845612"
+     },
+     "context": {
+      "property": "ncbiprotein:APO40582"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAD/BBC3/BCL2L11_complex",
+    "name": "BAD/BBC3/BCL2L11_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O43521"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BID",
+    "name": "BID",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P55957"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAX",
+    "name": "BAX",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q07812"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a",
+    "name": "Orf3a",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32555321"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK14",
+    "name": "MAPK14",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q16539"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP9_cell_active",
+    "name": "CASP9_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP8",
+    "name": "CASP8",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q14790"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP7",
+    "name": "CASP7",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P55210"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP3",
+    "name": "CASP3",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P42574"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6",
+    "name": "Orf6",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "1489673"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S",
+    "name": "S",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32075877"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8a",
+    "name": "Orf8a",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "1489676"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N",
+    "name": "N",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16112641"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3b",
+    "name": "Orf3b",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "1489670"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b",
+    "name": "Orf9b",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "1489679"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Apoptosis_phenotype",
+    "name": "Apoptosis_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "BAD",
+    "target": "Orf7a",
+    "sign": false
+   },
+   {
+    "id": "t2",
+    "source": "E",
+    "target": "Orf7a",
+    "sign": false
+   },
+   {
+    "id": "t3",
+    "source": "FASLG",
+    "target": "FAS/FASL_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "TNF",
+    "target": "TNF/TNFRSF1A_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "BCL2/MCL1/BCL2L1_complex",
+    "target": "BCL2/MCL1/BCL2L1_complex",
+    "sign": false
+   },
+   {
+    "id": "t6",
+    "source": "TNF/TNFRSF1A_complex",
+    "target": "TRADD/FADD_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "FADD",
+    "target": "TRADD/FADD_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "TRADD",
+    "target": "TRADD/FADD_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "CYCS",
+    "target": "Apoptosome_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "CASP9_cell",
+    "target": "Apoptosome_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "APAF1",
+    "target": "Apoptosome_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "AKT1",
+    "target": "Apoptosome_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "M",
+    "target": "M",
+    "sign": false
+   },
+   {
+    "id": "t14",
+    "source": "FAS/FASL_complex",
+    "target": "FADD",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "AKT1",
+    "target": "AKT1",
+    "sign": false
+   },
+   {
+    "id": "t16",
+    "source": "BCL2/MCL1/BCL2L1_complex",
+    "target": "BAX",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "BAD/BBC3/BCL2L11_complex",
+    "target": "BAX",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "BID",
+    "target": "BAX",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "Orf3a",
+    "target": "MAPK14",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "MAPK14",
+    "target": "CYCS",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "BAX",
+    "target": "CYCS",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "CASP9_cell_active",
+    "target": "CASP7",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "CASP8",
+    "target": "CASP7",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "Apoptosome_complex",
+    "target": "CASP9_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "AKT1",
+    "target": "CASP9_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "CASP8",
+    "target": "CASP3",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "CASP9_cell_active",
+    "target": "CASP3",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "FADD",
+    "target": "CASP8",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "TRADD/FADD_complex",
+    "target": "CASP8",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "Orf3a",
+    "target": "CASP8",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "N",
+    "target": "Apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "S",
+    "target": "Apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "Orf9b",
+    "target": "Apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "CASP3",
+    "target": "Apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "CASP7",
+    "target": "Apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "Orf8a",
+    "target": "Apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "Orf3b",
+    "target": "Apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "Orf6",
+    "target": "Apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "CASP8",
+    "target": "BID",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/BIOMD0000000562.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/BIOMD0000000562.json
new file mode 100644
index 000000000..94184185c
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/BIOMD0000000562.json
@@ -0,0 +1,469 @@
+{
+ "header": {
+  "name": "Chaouiya2013 - EGF and TNFalpha mediated signalling pathway",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Chaouiya2013 - EGF and TNFalpha mediated signalling pathway",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "nik",
+    "name": "nik",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ikk",
+    "name": "ikk",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mkk4",
+    "name": "mkk4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "p38",
+    "name": "p38",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ask1",
+    "name": "ask1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "map3k1",
+    "name": "map3k1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mkk7",
+    "name": "mkk7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "map3k7",
+    "name": "map3k7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "jnk",
+    "name": "jnk",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "tnfr",
+    "name": "tnfr",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "traf2",
+    "name": "traf2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "egfr",
+    "name": "egfr",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pi3k",
+    "name": "pi3k",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ex",
+    "name": "ex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ikb",
+    "name": "ikb",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mek",
+    "name": "mek",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "erk",
+    "name": "erk",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ras",
+    "name": "ras",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "raf1",
+    "name": "raf1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "tnfa",
+    "name": "tnfa",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "akt",
+    "name": "akt",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "egf",
+    "name": "egf",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nfkb",
+    "name": "nfkb",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cjun",
+    "name": "cjun",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ap1",
+    "name": "ap1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ph",
+    "name": "ph",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "sos",
+    "name": "sos",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "nik",
+    "target": "ikk",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "mkk4",
+    "target": "p38",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "ask1",
+    "target": "mkk7",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "map3k1",
+    "target": "mkk7",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "map3k7",
+    "target": "mkk4",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "map3k1",
+    "target": "mkk4",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "map3k7",
+    "target": "nik",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "mkk7",
+    "target": "jnk",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "tnfr",
+    "target": "traf2",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "egfr",
+    "target": "pi3k",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "ikk",
+    "target": "ikb",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "ex",
+    "target": "ikb",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "mek",
+    "target": "erk",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "ras",
+    "target": "map3k1",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "ras",
+    "target": "raf1",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "tnfa",
+    "target": "tnfr",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "traf2",
+    "target": "map3k7",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "traf2",
+    "target": "ask1",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "akt",
+    "target": "akt",
+    "sign": false
+   },
+   {
+    "id": "t20",
+    "source": "pi3k",
+    "target": "akt",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "egf",
+    "target": "egfr",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "ikb",
+    "target": "ikb",
+    "sign": false
+   },
+   {
+    "id": "t23",
+    "source": "nfkb",
+    "target": "ex",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "cjun",
+    "target": "ap1",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "jnk",
+    "target": "cjun",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "erk",
+    "target": "ph",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "raf1",
+    "target": "mek",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "sos",
+    "target": "ras",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "ph",
+    "target": "sos",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "egfr",
+    "target": "sos",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {
+   "license": "CC0",
+   "authors": [],
+   "references": [
+    "pubmed:24321545"
+   ],
+   "time_scale": null,
+   "time_start": null,
+   "time_end": null,
+   "locations": [],
+   "pathogens": [],
+   "diseases": [],
+   "hosts": [
+    "ncbitaxon:9606"
+   ],
+   "model_types": [
+    "mamo:0000030"
+   ]
+  }
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Coagulation-pathway.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Coagulation-pathway.json
new file mode 100644
index 000000000..5154e2841
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Coagulation-pathway.json
@@ -0,0 +1,2701 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "KLKB1",
+    "name": "KLKB1",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:6371"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "KNG1",
+    "name": "KNG1",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "KNG1:KLKB1_complex",
+    "name": "KNG1:KLKB1_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F10a",
+    "name": "F10a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:F10"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F5a",
+    "name": "F5a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:F5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F5a:F10a_complex",
+    "name": "F5a:F10a_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F9a",
+    "name": "F9a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:F9"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F8a",
+    "name": "F8a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:F8"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F8:F9_complex",
+    "name": "F8:F9_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SERPINE1",
+    "name": "SERPINE1",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:8593"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PLAT_blood",
+    "name": "PLAT_blood",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SARS-CoV-2 infection_phenotype",
+    "name": "SARS-CoV-2 infection_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "2697049"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PLAT:SERPINE1_complex",
+    "name": "PLAT:SERPINE1_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fibrinogen_complex",
+    "name": "Fibrinogen_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Antithrombin",
+    "name": "Antithrombin",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thrombin_blood_active",
+    "name": "Thrombin_blood_active",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAT complex_complex",
+    "name": "TAT complex_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thrombomodulin",
+    "name": "Thrombomodulin",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:11784"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thrombin:Thrombomodulin_complex",
+    "name": "Thrombin:Thrombomodulin_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9986"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C5b:C6:C7_complex",
+    "name": "C5b:C6:C7_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C8A:C8B:C8G_complex",
+    "name": "C8A:C8B:C8G_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C5b:C6:C7:C8A:C8B:C8G_complex",
+    "name": "C5b:C6:C7:C8A:C8B:C8G_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C3b",
+    "name": "C3b",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:C3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C3b:Bb_complex",
+    "name": "C3b:Bb_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C3b:Bb:C3b_complex",
+    "name": "C3b:Bb:C3b_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C5b:C6_complex",
+    "name": "C5b:C6_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C7",
+    "name": "C7",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "HGNC:1346"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C9",
+    "name": "C9",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:1358"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C5b-9_complex_endothelium, vascular",
+    "name": "C5b-9_complex_endothelium, vascular",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C5b",
+    "name": "C5b",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:C5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C6",
+    "name": "C6",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:1339"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C4b",
+    "name": "C4b",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:1324"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C2a",
+    "name": "C2a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:C2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C2a:C4b_complex",
+    "name": "C2a:C4b_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2_blood",
+    "name": "ACE2_blood",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:13557"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S",
+    "name": "S",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "2697049"
+     },
+     "context": {
+      "property": "uniprot:P0DTC2",
+      "property1": "uniprot:P59594"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2:Spike_complex",
+    "name": "ACE2:Spike_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "2697049"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Plasmin",
+    "name": "Plasmin",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:PLG"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SERPINF2",
+    "name": "SERPINF2",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:9075"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SERPINF2:Plasmin_complex",
+    "name": "SERPINF2:Plasmin_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GP6",
+    "name": "GP6",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "HGNC:14388"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fibrinogen:GP6_complex",
+    "name": "Fibrinogen:GP6_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GP6:alpha2:beta1_complex",
+    "name": "GP6:alpha2:beta1_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "10090"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "VWF",
+    "name": "VWF",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:12726",
+      "property1": "hgnc:12726"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GP6:alpha2beta1:VWF_complex",
+    "name": "GP6:alpha2beta1:VWF_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "10090"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ITGA2:ITGAB1_complex",
+    "name": "ITGA2:ITGAB1_complex",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F12",
+    "name": "F12",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:3530"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F12a",
+    "name": "F12a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:F12"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F10",
+    "name": "F10",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:3528"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F8",
+    "name": "F8",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:3546"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Bradykinin",
+    "name": "Bradykinin",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE",
+    "name": "ACE",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:2707"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PROC",
+    "name": "PROC",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:9451"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Small peptide",
+    "name": "Small peptide",
+    "grounding": {
+     "identifiers": {
+      "mesh": "D010446"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F11",
+    "name": "F11",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F11a",
+    "name": "F11a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:F11"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F9",
+    "name": "F9",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:35531"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thrombin_blood",
+    "name": "Thrombin_blood",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Heparin_simple_molecule",
+    "name": "Heparin_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin I_simple_molecule",
+    "name": "angiotensin I_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin II_simple_molecule",
+    "name": "angiotensin II_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AGT",
+    "name": "AGT",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:333"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "REN",
+    "name": "REN",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:REN"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Prorenin",
+    "name": "Prorenin",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:9958"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Kallikrein",
+    "name": "Kallikrein",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:KLKB1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "aldosterone_simple_molecule_blood",
+    "name": "aldosterone_simple_molecule_blood",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "27584"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F5",
+    "name": "F5",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:3541"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Prothrombin",
+    "name": "Prothrombin",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fibrin polymer",
+    "name": "Fibrin polymer",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAFI",
+    "name": "TAFI",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:1546",
+      "property1": "hgnc:1546"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "D-dimer",
+    "name": "D-dimer",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Plasminogen",
+    "name": "Plasminogen",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:9071"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PLAT_blood_active",
+    "name": "PLAT_blood_active",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:9051"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PLAU",
+    "name": "PLAU",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:9052",
+      "property1": "hgnc:9052"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin I-7_simple_molecule",
+    "name": "angiotensin I-7_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL6",
+    "name": "IL6",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:6018"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AGTR1_blood",
+    "name": "AGTR1_blood",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "336"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cytokine storm_phenotype",
+    "name": "cytokine storm_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TNF",
+    "name": "TNF",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:11892"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL1B",
+    "name": "IL1B",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:5992"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Kininogen",
+    "name": "Kininogen",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:KNG1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C5",
+    "name": "C5",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:1331"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C5a",
+    "name": "C5a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:C5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL8",
+    "name": "IL8",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:6025"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL2RA",
+    "name": "IL2RA",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:6008"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CRP",
+    "name": "CRP",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:2367"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C4d",
+    "name": "C4d",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thrombosis_phenotype_blood",
+    "name": "Thrombosis_phenotype_blood",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C3",
+    "name": "C3",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:1318"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C3a",
+    "name": "C3a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:C3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MBL2",
+    "name": "MBL2",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:6902"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MASP1",
+    "name": "MASP1",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:6901",
+      "property1": "hgnc:6901"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C4",
+    "name": "C4",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MASP2",
+    "name": "MASP2",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:6902",
+      "property1": "hgnc:6902"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C4a",
+    "name": "C4a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:1323"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C2",
+    "name": "C2",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:1248"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C2b",
+    "name": "C2b",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:C2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CFI",
+    "name": "CFI",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:2771"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C4d deposition_phenotype",
+    "name": "C4d deposition_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "septal capillary necrosis_phenotype",
+    "name": "septal capillary necrosis_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "C5b-9 deposition_phenotype",
+    "name": "C5b-9 deposition_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2_endothelium, vascular",
+    "name": "ACE2_endothelium, vascular",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:13557"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fibrin monomer",
+    "name": "Fibrin monomer",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Bradykinin(1-5)",
+    "name": "Bradykinin(1-5)",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "apoptosis_phenotype",
+    "name": "apoptosis_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "platelet aggregation_phenotype",
+    "name": "platelet aggregation_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MASP2 deposition_phenotype",
+    "name": "MASP2 deposition_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F13a",
+    "name": "F13a",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {
+      "property": "hgnc:F13"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "platelet activation_phenotype",
+    "name": "platelet activation_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AGTR1_platelet",
+    "name": "AGTR1_platelet",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "336"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAS1",
+    "name": "MAS1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:6899"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "thrombus formation_phenotype",
+    "name": "thrombus formation_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SARS-CoV-2 viral entry_phenotype",
+    "name": "SARS-CoV-2 viral entry_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "2697049"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "K+_ion",
+    "name": "K+_ion",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "29103"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACTH_simple_molecule",
+    "name": "ACTH_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "9201"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "aldosterone_simple_molecule_endothelium, vascular",
+    "name": "aldosterone_simple_molecule_endothelium, vascular",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "27584"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NR3C2",
+    "name": "NR3C2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:7979"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "vascular remodeling_phenotype",
+    "name": "vascular remodeling_phenotype",
+    "grounding": {
+     "identifiers": {
+      "GO": "0001974"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Hypokalemia_phenotype",
+    "name": "Hypokalemia_phenotype",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thrombosis_phenotype_human host",
+    "name": "Thrombosis_phenotype_human host",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "9606"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "vascular inflammation_phenotype",
+    "name": "vascular inflammation_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "KNG1",
+    "target": "KNG1:KLKB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "KLKB1",
+    "target": "KNG1:KLKB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "F10a",
+    "target": "F5a:F10a_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "F5a",
+    "target": "F5a:F10a_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "F8a",
+    "target": "F8:F9_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "F9a",
+    "target": "F8:F9_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "PLAT:SERPINE1_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "SERPINE1",
+    "target": "PLAT:SERPINE1_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "PLAT_blood",
+    "target": "PLAT:SERPINE1_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "Fibrinogen_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "TAT complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "Thrombin_blood_active",
+    "target": "TAT complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "Antithrombin",
+    "target": "TAT complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "Thrombin_blood_active",
+    "target": "Thrombin:Thrombomodulin_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "Thrombomodulin",
+    "target": "Thrombin:Thrombomodulin_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "C8A:C8B:C8G_complex",
+    "target": "C5b:C6:C7:C8A:C8B:C8G_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "C5b:C6:C7_complex",
+    "target": "C5b:C6:C7:C8A:C8B:C8G_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "C3b",
+    "target": "C3b:Bb:C3b_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "C3b:Bb_complex",
+    "target": "C3b:Bb:C3b_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "C7",
+    "target": "C5b:C6:C7_complex",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "C5b:C6_complex",
+    "target": "C5b:C6:C7_complex",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "C5b-9_complex_endothelium, vascular",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "C9",
+    "target": "C5b-9_complex_endothelium, vascular",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "C5b:C6:C7:C8A:C8B:C8G_complex",
+    "target": "C5b-9_complex_endothelium, vascular",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "C5b",
+    "target": "C5b:C6_complex",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "C6",
+    "target": "C5b:C6_complex",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "C2a",
+    "target": "C2a:C4b_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "C4b",
+    "target": "C2a:C4b_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "S",
+    "target": "ACE2:Spike_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "ACE2_blood",
+    "target": "ACE2:Spike_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "SERPINF2",
+    "target": "SERPINF2:Plasmin_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "SERPINF2:Plasmin_complex",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "Plasmin",
+    "target": "SERPINF2:Plasmin_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "GP6",
+    "target": "Fibrinogen:GP6_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "Fibrinogen_complex",
+    "target": "Fibrinogen:GP6_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "GP6:alpha2:beta1_complex",
+    "target": "GP6:alpha2beta1:VWF_complex",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "VWF",
+    "target": "GP6:alpha2beta1:VWF_complex",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "ITGA2:ITGAB1_complex",
+    "target": "GP6:alpha2:beta1_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "GP6",
+    "target": "GP6:alpha2:beta1_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "S",
+    "target": "C5b-9_complex_endothelium, vascular",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "KLKB1",
+    "target": "F12a",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "F12",
+    "target": "F12a",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "ACE",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "F10",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "F12",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "Bradykinin",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "F8",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "KLKB1",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "PROC",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "Thrombin_blood_active",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "Antithrombin",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "F9a",
+    "target": "Small peptide",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "F12a",
+    "target": "F11",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "Thrombin_blood_active",
+    "target": "F11",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "F12a",
+    "target": "F11a",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "Thrombin_blood_active",
+    "target": "F11a",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "F11a",
+    "target": "F9a",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "F9",
+    "target": "F9a",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "F9a",
+    "target": "F10a",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "Antithrombin",
+    "target": "F10a",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "F10",
+    "target": "F10a",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "F8",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "F8",
+    "target": "F8a",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "Thrombin_blood_active",
+    "target": "F8a",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "PROC",
+    "target": "F8a",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "Thrombin_blood",
+    "target": "Thrombin_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "Heparin_simple_molecule",
+    "target": "Thrombin_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "Antithrombin",
+    "target": "Thrombin_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "ACE",
+    "target": "angiotensin II_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "angiotensin I_simple_molecule",
+    "target": "angiotensin II_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "angiotensin II_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "AGT",
+    "target": "angiotensin I_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "REN",
+    "target": "angiotensin I_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "Prorenin",
+    "target": "REN",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "Kallikrein",
+    "target": "REN",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "aldosterone_simple_molecule_blood",
+    "target": "ACE",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "F5",
+    "target": "F5a",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "PROC",
+    "target": "F5a",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "Thrombin:Thrombomodulin_complex",
+    "target": "F5a",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "SARS-CoV-2 infection_phenotype",
+    "sign": false
+   },
+   {
+    "id": "t81",
+    "source": "F5a:F10a_complex",
+    "target": "Thrombin_blood",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "Prothrombin",
+    "target": "Thrombin_blood",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "PROC",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "D-dimer",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "Plasmin",
+    "target": "D-dimer",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "TAFI",
+    "target": "D-dimer",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "Fibrin polymer",
+    "target": "D-dimer",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "C5b-9_complex_endothelium, vascular",
+    "target": "Plasminogen",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "F11a",
+    "target": "Plasmin",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "Plasminogen",
+    "target": "Plasmin",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "PLAT_blood_active",
+    "target": "Plasmin",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "PLAU",
+    "target": "Plasmin",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "KLKB1",
+    "target": "Plasmin",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "Bradykinin",
+    "target": "PLAT_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "SERPINE1",
+    "target": "PLAT_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "angiotensin II_simple_molecule",
+    "target": "PLAT_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "angiotensin I-7_simple_molecule",
+    "target": "PLAT_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "PLAT_blood",
+    "target": "PLAT_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "PROC",
+    "target": "PLAT_blood_active",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "angiotensin II_simple_molecule",
+    "target": "SERPINE1",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "angiotensin I-7_simple_molecule",
+    "target": "SERPINE1",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "IL6",
+    "target": "SERPINE1",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "AGTR1_blood",
+    "target": "SERPINE1",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "aldosterone_simple_molecule_blood",
+    "target": "SERPINE1",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "Thrombin_blood_active",
+    "target": "TAFI",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "SERPINE1",
+    "target": "SERPINE1",
+    "sign": false
+   },
+   {
+    "id": "t107",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "TNF",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "cytokine storm_phenotype",
+    "target": "TNF",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "IL6",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "cytokine storm_phenotype",
+    "target": "IL6",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "IL1B",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "cytokine storm_phenotype",
+    "target": "IL1B",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "KNG1:KLKB1_complex",
+    "target": "Kininogen",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "F12a",
+    "target": "Kallikrein",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "KLKB1",
+    "target": "Kallikrein",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "KNG1:KLKB1_complex",
+    "target": "Kallikrein",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "C3b:Bb:C3b_complex",
+    "target": "C5a",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "C5a",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "C5",
+    "target": "C5a",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "Plasmin",
+    "target": "C5a",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "C2a:C4b_complex",
+    "target": "C5a",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "C5b-9_complex_endothelium, vascular",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "TNF",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "angiotensin II_simple_molecule",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "IL1B",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "C4d",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "IL6",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "CRP",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "IL2RA",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "VWF",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "IL8",
+    "target": "Thrombosis_phenotype_blood",
+    "sign": true
+   },
+   {
+    "id": "t132",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "Thrombomodulin",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "IL8",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "cytokine storm_phenotype",
+    "target": "IL8",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "IL2RA",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "cytokine storm_phenotype",
+    "target": "IL2RA",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "C3",
+    "target": "C3a",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "C2a:C4b_complex",
+    "target": "C3a",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "C3b:Bb_complex",
+    "target": "C3a",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "C3",
+    "target": "C3b",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "C2a:C4b_complex",
+    "target": "C3b",
+    "sign": true
+   },
+   {
+    "id": "t142",
+    "source": "C3b:Bb_complex",
+    "target": "C3b",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "C3b:Bb:C3b_complex",
+    "target": "C5b",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "C5",
+    "target": "C5b",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "C2a:C4b_complex",
+    "target": "C5b",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "MBL2",
+    "target": "MASP1",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "MASP2",
+    "target": "C4a",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "C4",
+    "target": "C4a",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "MASP2",
+    "target": "C4b",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "C4",
+    "target": "C4b",
+    "sign": true
+   },
+   {
+    "id": "t151",
+    "source": "MASP1",
+    "target": "C2a",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "C2",
+    "target": "C2a",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "MASP1",
+    "target": "C2b",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "C2",
+    "target": "C2b",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "C4d",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "CFI",
+    "target": "C4d",
+    "sign": true
+   },
+   {
+    "id": "t157",
+    "source": "C4b",
+    "target": "C4d",
+    "sign": true
+   },
+   {
+    "id": "t158",
+    "source": "S",
+    "target": "C4d",
+    "sign": true
+   },
+   {
+    "id": "t159",
+    "source": "C4d",
+    "target": "C4d deposition_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t160",
+    "source": "C4d deposition_phenotype",
+    "target": "septal capillary necrosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t161",
+    "source": "C5b-9_complex_endothelium, vascular",
+    "target": "C5b-9 deposition_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t162",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "ACE2_endothelium, vascular",
+    "sign": true
+   },
+   {
+    "id": "t163",
+    "source": "ACE2_blood",
+    "target": "ACE2_endothelium, vascular",
+    "sign": true
+   },
+   {
+    "id": "t164",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "Fibrin monomer",
+    "sign": true
+   },
+   {
+    "id": "t165",
+    "source": "Thrombin_blood",
+    "target": "Fibrin monomer",
+    "sign": true
+   },
+   {
+    "id": "t166",
+    "source": "Fibrinogen_complex",
+    "target": "Fibrin monomer",
+    "sign": true
+   },
+   {
+    "id": "t167",
+    "source": "Thrombin:Thrombomodulin_complex",
+    "target": "Fibrin monomer",
+    "sign": true
+   },
+   {
+    "id": "t168",
+    "source": "ACE2_endothelium, vascular",
+    "target": "angiotensin I-7_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t169",
+    "source": "angiotensin II_simple_molecule",
+    "target": "angiotensin I-7_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t170",
+    "source": "KNG1:KLKB1_complex",
+    "target": "Bradykinin",
+    "sign": true
+   },
+   {
+    "id": "t171",
+    "source": "Bradykinin",
+    "target": "Bradykinin(1-5)",
+    "sign": true
+   },
+   {
+    "id": "t172",
+    "source": "ACE",
+    "target": "Bradykinin(1-5)",
+    "sign": true
+   },
+   {
+    "id": "t173",
+    "source": "C5b-9 deposition_phenotype",
+    "target": "apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t174",
+    "source": "C5b-9 deposition_phenotype",
+    "target": "platelet aggregation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t175",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "CRP",
+    "sign": true
+   },
+   {
+    "id": "t176",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "VWF",
+    "sign": true
+   },
+   {
+    "id": "t177",
+    "source": "MASP2",
+    "target": "MASP2 deposition_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t178",
+    "source": "F13a",
+    "target": "Fibrin polymer",
+    "sign": true
+   },
+   {
+    "id": "t179",
+    "source": "Fibrin monomer",
+    "target": "Fibrin polymer",
+    "sign": true
+   },
+   {
+    "id": "t180",
+    "source": "GP6:alpha2beta1:VWF_complex",
+    "target": "platelet activation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t181",
+    "source": "Fibrinogen:GP6_complex",
+    "target": "platelet activation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t182",
+    "source": "MAS1",
+    "target": "thrombus formation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t183",
+    "source": "platelet activation_phenotype",
+    "target": "thrombus formation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t184",
+    "source": "AGTR1_platelet",
+    "target": "thrombus formation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t185",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "MASP2",
+    "sign": true
+   },
+   {
+    "id": "t186",
+    "source": "angiotensin I-7_simple_molecule",
+    "target": "MAS1",
+    "sign": true
+   },
+   {
+    "id": "t187",
+    "source": "angiotensin II_simple_molecule",
+    "target": "AGTR1_platelet",
+    "sign": true
+   },
+   {
+    "id": "t188",
+    "source": "ACE2:Spike_complex",
+    "target": "SARS-CoV-2 viral entry_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t189",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "aldosterone_simple_molecule_blood",
+    "sign": true
+   },
+   {
+    "id": "t190",
+    "source": "angiotensin II_simple_molecule",
+    "target": "aldosterone_simple_molecule_blood",
+    "sign": true
+   },
+   {
+    "id": "t191",
+    "source": "K+_ion",
+    "target": "aldosterone_simple_molecule_blood",
+    "sign": true
+   },
+   {
+    "id": "t192",
+    "source": "AGTR1_blood",
+    "target": "aldosterone_simple_molecule_blood",
+    "sign": true
+   },
+   {
+    "id": "t193",
+    "source": "ACTH_simple_molecule",
+    "target": "aldosterone_simple_molecule_blood",
+    "sign": true
+   },
+   {
+    "id": "t194",
+    "source": "aldosterone_simple_molecule_blood",
+    "target": "aldosterone_simple_molecule_endothelium, vascular",
+    "sign": true
+   },
+   {
+    "id": "t195",
+    "source": "aldosterone_simple_molecule_endothelium, vascular",
+    "target": "NR3C2",
+    "sign": true
+   },
+   {
+    "id": "t196",
+    "source": "AGTR1_blood",
+    "target": "NR3C2",
+    "sign": true
+   },
+   {
+    "id": "t197",
+    "source": "aldosterone_simple_molecule_endothelium, vascular",
+    "target": "vascular remodeling_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t198",
+    "source": "angiotensin II_simple_molecule",
+    "target": "AGTR1_blood",
+    "sign": true
+   },
+   {
+    "id": "t199",
+    "source": "Hypokalemia_phenotype",
+    "target": "Hypokalemia_phenotype",
+    "sign": false
+   },
+   {
+    "id": "t200",
+    "source": "AGTR1_blood",
+    "target": "Thrombosis_phenotype_human host",
+    "sign": true
+   },
+   {
+    "id": "t201",
+    "source": "NR3C2",
+    "target": "Thrombosis_phenotype_human host",
+    "sign": true
+   },
+   {
+    "id": "t202",
+    "source": "aldosterone_simple_molecule_endothelium, vascular",
+    "target": "vascular inflammation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t203",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "Hypokalemia_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t204",
+    "source": "aldosterone_simple_molecule_blood",
+    "target": "Hypokalemia_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/ER_Stress.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/ER_Stress.json
new file mode 100644
index 000000000..509484473
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/ER_Stress.json
@@ -0,0 +1,3521 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "EIF2S1_phosphorylated",
+    "name": "EIF2S1_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:EIF2S1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2S2",
+    "name": "EIF2S2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:EIF2S2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2S3:GDP_complex",
+    "name": "EIF2S3:GDP_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2-P:GDP_complex",
+    "name": "EIF2-P:GDP_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERN1:Unfolded_space_protein_complex",
+    "name": "ERN1:Unfolded_space_protein_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF2",
+    "name": "TRAF2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:TRAF2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAK1:ERN1_complex",
+    "name": "BAK1:ERN1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAX:ERN1_complex",
+    "name": "BAX:ERN1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAX_endoplasmic reticulum",
+    "name": "BAX_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BAX"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAK1",
+    "name": "BAK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BAK1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2",
+    "name": "BCL2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BCL2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2L1",
+    "name": "BCL2L1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BCL2L1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Persistant_space_ER_space_Stress_phenotype_endoplasmic reticulum",
+    "name": "Persistant_space_ER_space_Stress_phenotype_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF2:ERN1_complex",
+    "name": "TRAF2:ERN1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1_mitochondria-associated endoplasmic reticulum membrane",
+    "name": "SIGMAR1_mitochondria-associated endoplasmic reticulum membrane",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17981125"
+     },
+     "context": {
+      "property": "hgnc:8157",
+      "property1": "taxonomy:10029"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ITPR3",
+    "name": "ITPR3",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17981125"
+     },
+     "context": {
+      "property": "hgnc:6182"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ER_space_stress_phenotype",
+    "name": "ER_space_stress_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "22511781"
+     },
+     "context": {
+      "property": "taxonomy:10090"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ca2+space_ER_space_depletion_phenotype",
+    "name": "Ca2+space_ER_space_depletion_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17981125"
+     },
+     "context": {
+      "property": "taxonomy:10029"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1:ITPR3_complex",
+    "name": "SIGMAR1:ITPR3_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17981125"
+     },
+     "context": {
+      "property": "taxonomy:10029"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Met-tRNA_rna",
+    "name": "Met-tRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:34779"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2:GDP_complex",
+    "name": "EIF2:GDP_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ternary_space_Complex_complex",
+    "name": "Ternary_space_Complex_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GDP_simple_molecule",
+    "name": "GDP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2:GDP:Met-tRNA_complex",
+    "name": "EIF2:GDP:Met-tRNA_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP8:CASP8-ubq:FADD_complex",
+    "name": "CASP8:CASP8-ubq:FADD_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SQSTM1_space_",
+    "name": "SQSTM1_space_",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:SQSTM1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP1LC3A",
+    "name": "MAP1LC3A",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAP1LC3A"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATG5",
+    "name": "ATG5",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ATG5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM13",
+    "name": "TRIM13",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:TRIM13"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "name": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERN1_endoplasmic reticulum",
+    "name": "ERN1_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ERN1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Unfolded_space_protein",
+    "name": "Unfolded_space_protein",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1_endoplasmic reticulum",
+    "name": "SIGMAR1_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:8157"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HSPA5_endoplasmic reticulum",
+    "name": "HSPA5_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:5238"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1:HSPA5_complex",
+    "name": "SIGMAR1:HSPA5_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17981125"
+     },
+     "context": {
+      "property": "taxonomy:10029"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "VAPB",
+    "name": "VAPB",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:12649"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RMDN3",
+    "name": "RMDN3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:25550"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "VAPB:RMDN3_complex",
+    "name": "VAPB:RMDN3_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "28132811"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GTP_simple_molecule",
+    "name": "GTP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2B_complex",
+    "name": "EIF2B_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PACS2_early_space_endosome",
+    "name": "PACS2_early_space_endosome",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "15692567"
+     },
+     "context": {
+      "property": "hgnc:23794"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADAM17_early_space_endosome",
+    "name": "ADAM17_early_space_endosome",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "26108729"
+     },
+     "context": {
+      "property": "hgnc:195"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PACS2-ADAM17_space_interaction_complex",
+    "name": "PACS2-ADAM17_space_interaction_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "26108729"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCAP31",
+    "name": "BCAP31",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:16695"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FIS1",
+    "name": "FIS1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:21689"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FIS1:BCAP31_complex",
+    "name": "FIS1:BCAP31_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "15692567"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MFN2_endoplasmic reticulum",
+    "name": "MFN2_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052620"
+     },
+     "context": {
+      "property": "hgnc:16877"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MFN2_mitochondrion",
+    "name": "MFN2_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:16877"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MFN2:MFN2_complex",
+    "name": "MFN2:MFN2_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052620"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BBC3",
+    "name": "BBC3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BBC3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Persistant_space_ER_space_Stress_phenotype_cell",
+    "name": "Persistant_space_ER_space_Stress_phenotype_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERN1:BBC3_complex",
+    "name": "ERN1:BBC3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2S1",
+    "name": "EIF2S1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:EIF2S1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MFN1",
+    "name": "MFN1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:1826"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MFN1:MFN2_complex",
+    "name": "MFN1:MFN2_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052620"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MCU",
+    "name": "MCU",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24231807"
+     },
+     "context": {
+      "property": "hgnc:23526",
+      "property1": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SMDT1",
+    "name": "SMDT1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24231807"
+     },
+     "context": {
+      "property": "hgnc:25055",
+      "property1": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MCU2",
+    "name": "MCU2",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24231807"
+     },
+     "context": {
+      "property": "hgnc:31830",
+      "property1": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MCU1",
+    "name": "MCU1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24231807"
+     },
+     "context": {
+      "property": "hgnc:1530",
+      "property1": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MCU:MICU1:MICU2:SMDT1_complex",
+    "name": "MCU:MICU1:MICU2:SMDT1_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24231807"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2L11_endoplasmic reticulum",
+    "name": "BCL2L11_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BCL2L11"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERN1:BCL2L11_complex",
+    "name": "ERN1:BCL2L11_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CAPN1",
+    "name": "CAPN1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:CAPN1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ca2+_ion_cell",
+    "name": "Ca2+_ion_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "high_space_Ca2+space_cytosolic_space_concentration_phenotype",
+    "name": "high_space_Ca2+space_cytosolic_space_concentration_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CAPN1:Ca2+_complex",
+    "name": "CAPN1:Ca2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2AK3",
+    "name": "EIF2AK3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:EIF2AK3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2AK3:EIF2AK3_complex",
+    "name": "EIF2AK3:EIF2AK3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mitochondrial_space_calcium_space_uniporter_space_complex_complex",
+    "name": "Mitochondrial_space_calcium_space_uniporter_space_complex_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "26968367"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2",
+    "name": "ACE2",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "15692567"
+     },
+     "context": {
+      "property": "HGNC:13557"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S",
+    "name": "S",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P0DTC2",
+      "property1": "uniprot:P59594",
+      "property2": "uniprot:W6A028"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2:Spike_complex",
+    "name": "ACE2:Spike_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HSPA5_default_compartment",
+    "name": "HSPA5_default_compartment",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "30978349"
+     },
+     "context": {
+      "property": "HGNC:5238"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HSPA5-Spike interaction_complex",
+    "name": "HSPA5-Spike interaction_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32340551"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2,_space_membrane-bound",
+    "name": "ACE2,_space_membrane-bound",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19411314"
+     },
+     "context": {
+      "property": "hgnc:ACE2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2,_space_soluble",
+    "name": "ACE2,_space_soluble",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19411314"
+     },
+     "context": {
+      "property": "hgnc:ACE2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2-SARS-CoV interaction_complex",
+    "name": "ACE2-SARS-CoV interaction_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19411314"
+     },
+     "context": {
+      "property": "taxonomy:9606",
+      "property1": "uniprot:P59594"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPP1R15A_gene",
+    "name": "PPP1R15A_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATF4",
+    "name": "ATF4",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ATF4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDIT3",
+    "name": "DDIT3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:DDIT3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPP1R15A_rna",
+    "name": "PPP1R15A_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:PPP1R15A"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAX_phosphorylated",
+    "name": "BAX_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BAX"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "release_space_of_space_ER_space_Ca2+_phenotype",
+    "name": "release_space_of_space_ER_space_Ca2+_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATF6_endoplasmic reticulum",
+    "name": "ATF6_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ATF6"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ER_space_Stress_phenotype",
+    "name": "ER_space_Stress_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATF6_Golgi apparatus",
+    "name": "ATF6_Golgi apparatus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ATF6"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MBTPS2",
+    "name": "MBTPS2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MBTPS2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MBTPS1",
+    "name": "MBTPS1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MBTPS1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "retrograde_space_transport_space_from_space_ER_space_to_space_cytosol_phenotype",
+    "name": "retrograde_space_transport_space_from_space_ER_space_to_space_cytosol_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK14_phosphorylated",
+    "name": "MAPK14_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAPK14"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDIT3_phosphorylated",
+    "name": "DDIT3_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:DDIT3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "endoplasmic_space_reticulum_space_organization_phenotype",
+    "name": "endoplasmic_space_reticulum_space_organization_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052620"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATF6:HSPA5_complex",
+    "name": "ATF6:HSPA5_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HSPA5_rna",
+    "name": "HSPA5_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:HSPA5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ITPR",
+    "name": "ITPR",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ITPR1",
+      "property1": "hgnc:ITPR2",
+      "property2": "hgnc:ITPR3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TMBIM6",
+    "name": "TMBIM6",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:TMBIM6"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERO1A_endoplasmic reticulum",
+    "name": "ERO1A_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ERO1A"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HSPA5_gene",
+    "name": "HSPA5_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "XBP1",
+    "name": "XBP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:XBP1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "accumulation_space_of_space_misfolded_space_protein_space_in_space_ER_phenotype",
+    "name": "accumulation_space_of_space_misfolded_space_protein_space_in_space_ER_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UPR_phenotype",
+    "name": "UPR_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ca2+space_mitochondrial_space_concentration_phenotype",
+    "name": "Ca2+space_mitochondrial_space_concentration_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "28132811"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PACS2_endoplasmic reticulum",
+    "name": "PACS2_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "15692567"
+     },
+     "context": {
+      "property": "hgnc:23794"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNAJC3_rna",
+    "name": "DNAJC3_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:DNAJC3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNAJC3",
+    "name": "DNAJC3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:DNAJC3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDIT3_gene",
+    "name": "DDIT3_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATF6_nucleus",
+    "name": "ATF6_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ATF6"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDIT3_rna",
+    "name": "DDIT3_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:DDIT3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATF4_gene",
+    "name": "ATF4_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATF4_rna",
+    "name": "ATF4_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ATF4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2L11_phosphorylated",
+    "name": "BCL2L11_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BCL2L11"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPP2CA",
+    "name": "PPP2CA",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:PPP2CA"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2L11_cell",
+    "name": "BCL2L11_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BCL2L11"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIB3_gene",
+    "name": "TRIB3_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIB3_rna",
+    "name": "TRIB3_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:TRIB3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ca2+_ion_endoplasmic reticulum",
+    "name": "Ca2+_ion_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ITPR3:HSPA9:VDAC1_complex",
+    "name": "ITPR3:HSPA9:VDAC1_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "29491369"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ca2+_ion_mitochondrion",
+    "name": "Ca2+_ion_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERO1A_cell",
+    "name": "ERO1A_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ERO1A"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPP1R15A",
+    "name": "PPP1R15A",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:PPP1R15A"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2AK1",
+    "name": "EIF2AK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:EIF2AK1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP9",
+    "name": "CASP9",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:CSAP9"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cleaved~CASP4",
+    "name": "cleaved~CASP4",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:CASP4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cleaved~CASP9",
+    "name": "cleaved~CASP9",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:CASP9"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mitochondrion-endoplasmic_space_reticulum_space_membrane_space_tethering_space__phenotype",
+    "name": "mitochondrion-endoplasmic_space_reticulum_space_membrane_space_tethering_space__phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052620"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mitochondrial_space_fission_phenotype",
+    "name": "mitochondrial_space_fission_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "15692567"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mitochondria_space_fragmentation_phenotype",
+    "name": "mitochondria_space_fragmentation_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "15692567"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mitochondrial_space_outer_space_membrane_space_depolarization_phenotype",
+    "name": "mitochondrial_space_outer_space_membrane_space_depolarization_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "21183955"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "XBP1_gene",
+    "name": "XBP1_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "XBP1_rna",
+    "name": "XBP1_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:XBP1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERAD_phenotype",
+    "name": "ERAD_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2_gene",
+    "name": "BCL2_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2_rna",
+    "name": "BCL2_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BCL2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "hyperoxidation_phenotype",
+    "name": "hyperoxidation_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "protein_space_ubiquitination_space_and_space_destruction_phenotype",
+    "name": "protein_space_ubiquitination_space_and_space_destruction_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CDK5",
+    "name": "CDK5",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:CDK5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK14",
+    "name": "MAPK14",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAPK14"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP3K5_phosphorylated",
+    "name": "MAP3K5_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAP3K5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERO1A_rna",
+    "name": "ERO1A_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ERO1A"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Apoptosis_phenotype_cell",
+    "name": "Apoptosis_phenotype_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cell_space_survival_phenotype",
+    "name": "Cell_space_survival_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "p20",
+    "name": "p20",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BCAP31"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "unfolded_space_protein_space_response_space_(UPR)_phenotype",
+    "name": "unfolded_space_protein_space_response_space_(UPR)_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "22511781"
+     },
+     "context": {
+      "property": "taxonomy:10090"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2AK2",
+    "name": "EIF2AK2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:EIF2AK2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "presence_space_of_space_dsRNA_phenotype",
+    "name": "presence_space_of_space_dsRNA_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ca2+_ion_mitochondrial matrix",
+    "name": "Ca2+_ion_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24231807"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAX_cell",
+    "name": "BAX_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BAX"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK8_phosphorylated",
+    "name": "MAPK8_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAPK8"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK8",
+    "name": "MAPK8",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAPK8"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP3K4_phosphorylated",
+    "name": "MAP3K4_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAP3K4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Translation_space_initiation_phenotype",
+    "name": "Translation_space_initiation_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BID",
+    "name": "BID",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BID"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BID_phosphorylated",
+    "name": "BID_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:BID"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIB3",
+    "name": "TRIB3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:TRIB3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP4",
+    "name": "CASP4",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:CASP4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HYOU1_rna",
+    "name": "HYOU1_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:HYOU1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HYOU1",
+    "name": "HYOU1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:HYOU1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP3",
+    "name": "CASP3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:CASP3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cleaved~CASP3",
+    "name": "cleaved~CASP3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:CASP3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GCN2:ATP_complex",
+    "name": "GCN2:ATP_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP-1",
+    "name": "AP-1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:FOS",
+      "property1": "hgnc:FOSB",
+      "property2": "hgnc:FOSL1",
+      "property3": "hgnc:FOSL2",
+      "property4": "hgnc:JUN",
+      "property5": "hgnc:JUNB",
+      "property6": "hgnc:JUND"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP-1_phosphorylated_phosphorylated",
+    "name": "AP-1_phosphorylated_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:FOS",
+      "property1": "hgnc:FOSB",
+      "property2": "hgnc:FOSL1",
+      "property3": "hgnc:FOSL2",
+      "property4": "hgnc:JUN",
+      "property5": "hgnc:JUNB",
+      "property6": "hgnc:JUND"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RYR1",
+    "name": "RYR1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:RYR1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Apoptosis_phenotype_endoplasmic reticulum",
+    "name": "Apoptosis_phenotype_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "15692567"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP3K5",
+    "name": "MAP3K5",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAP3K5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNAJC3_gene",
+    "name": "DNAJC3_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MFN2_rna",
+    "name": "MFN2_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MFN2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADAM17_cell",
+    "name": "ADAM17_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32264791"
+     },
+     "context": {
+      "property": "HGNC:195"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MFN2_gene",
+    "name": "MFN2_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mitochondrial_space_calcium_space_ion_space_transmembrane_space_transport_phenotype",
+    "name": "mitochondrial_space_calcium_space_ion_space_transmembrane_space_transport_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24231807"
+     },
+     "context": {
+      "property": "taxonomy:9606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "endoplasmic_space_reticulum_space_calcium_space_ion_space_homeostasis_phenotype",
+    "name": "endoplasmic_space_reticulum_space_calcium_space_ion_space_homeostasis_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "22511781"
+     },
+     "context": {
+      "property": "taxonomy:10090"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP3K4",
+    "name": "MAP3K4",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:MAP3K4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HYOU1_gene",
+    "name": "HYOU1_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERO1A_gene",
+    "name": "ERO1A_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SARS-CoV infection_phenotype",
+    "name": "SARS-CoV infection_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "viral entry into host cell_phenotype",
+    "name": "viral entry into host cell_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19411314"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "viral RNA genome replication_phenotype",
+    "name": "viral RNA genome replication_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "14647384"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "EIF2S3:GDP_complex",
+    "target": "EIF2-P:GDP_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "EIF2S2",
+    "target": "EIF2-P:GDP_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "EIF2S1_phosphorylated",
+    "target": "EIF2-P:GDP_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "Persistant_space_ER_space_Stress_phenotype_endoplasmic reticulum",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "BCL2",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "ERN1:Unfolded_space_protein_complex",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "BCL2L1",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "TRAF2",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "BAK1",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "BAX:ERN1_complex",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "BAX_endoplasmic reticulum",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "BAK1:ERN1_complex",
+    "target": "TRAF2:ERN1_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "SIGMAR1_mitochondria-associated endoplasmic reticulum membrane",
+    "target": "SIGMAR1:ITPR3_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "ITPR3",
+    "target": "SIGMAR1:ITPR3_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "ER_space_stress_phenotype",
+    "target": "SIGMAR1:ITPR3_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "Ca2+space_ER_space_depletion_phenotype",
+    "target": "SIGMAR1:ITPR3_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "Ternary_space_Complex_complex",
+    "target": "EIF2:GDP:Met-tRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "GDP_simple_molecule",
+    "target": "EIF2:GDP:Met-tRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "Met-tRNA_rna",
+    "target": "EIF2:GDP:Met-tRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "EIF2:GDP_complex",
+    "target": "EIF2:GDP:Met-tRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "CASP8:CASP8-ubq:FADD_complex",
+    "target": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "Persistant_space_ER_space_Stress_phenotype_endoplasmic reticulum",
+    "target": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "ATG5",
+    "target": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "TRIM13",
+    "target": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "MAP1LC3A",
+    "target": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "SQSTM1_space_",
+    "target": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "ERN1_endoplasmic reticulum",
+    "target": "ERN1:Unfolded_space_protein_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "Unfolded_space_protein",
+    "target": "ERN1:Unfolded_space_protein_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "HSPA5_endoplasmic reticulum",
+    "target": "SIGMAR1:HSPA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "SIGMAR1:HSPA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "RMDN3",
+    "target": "VAPB:RMDN3_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "VAPB",
+    "target": "VAPB:RMDN3_complex",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "EIF2:GDP:Met-tRNA_complex",
+    "target": "Ternary_space_Complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "GTP_simple_molecule",
+    "target": "Ternary_space_Complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "EIF2B_complex",
+    "target": "Ternary_space_Complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "ADAM17_early_space_endosome",
+    "target": "PACS2-ADAM17_space_interaction_complex",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "PACS2_early_space_endosome",
+    "target": "PACS2-ADAM17_space_interaction_complex",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "BCAP31",
+    "target": "FIS1:BCAP31_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "FIS1",
+    "target": "FIS1:BCAP31_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "MFN2_mitochondrion",
+    "target": "MFN2:MFN2_complex",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "MFN2_endoplasmic reticulum",
+    "target": "MFN2:MFN2_complex",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "Persistant_space_ER_space_Stress_phenotype_cell",
+    "target": "ERN1:BBC3_complex",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "ERN1_endoplasmic reticulum",
+    "target": "ERN1:BBC3_complex",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "BBC3",
+    "target": "ERN1:BBC3_complex",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "EIF2S3:GDP_complex",
+    "target": "EIF2:GDP_complex",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "EIF2S2",
+    "target": "EIF2:GDP_complex",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "EIF2S1",
+    "target": "EIF2:GDP_complex",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "MFN1",
+    "target": "MFN1:MFN2_complex",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "MFN2_endoplasmic reticulum",
+    "target": "MFN1:MFN2_complex",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "MCU1",
+    "target": "MCU:MICU1:MICU2:SMDT1_complex",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "MCU2",
+    "target": "MCU:MICU1:MICU2:SMDT1_complex",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "MCU",
+    "target": "MCU:MICU1:MICU2:SMDT1_complex",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "SMDT1",
+    "target": "MCU:MICU1:MICU2:SMDT1_complex",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "Persistant_space_ER_space_Stress_phenotype_cell",
+    "target": "ERN1:BCL2L11_complex",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "ERN1_endoplasmic reticulum",
+    "target": "ERN1:BCL2L11_complex",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "BCL2L11_endoplasmic reticulum",
+    "target": "ERN1:BCL2L11_complex",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "high_space_Ca2+space_cytosolic_space_concentration_phenotype",
+    "target": "CAPN1:Ca2+_complex",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "CAPN1",
+    "target": "CAPN1:Ca2+_complex",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "Ca2+_ion_cell",
+    "target": "CAPN1:Ca2+_complex",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "EIF2AK3",
+    "target": "EIF2AK3:EIF2AK3_complex",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "Persistant_space_ER_space_Stress_phenotype_endoplasmic reticulum",
+    "target": "EIF2AK3:EIF2AK3_complex",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "Unfolded_space_protein",
+    "target": "EIF2AK3:EIF2AK3_complex",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "MCU:MICU1:MICU2:SMDT1_complex",
+    "target": "Mitochondrial_space_calcium_space_uniporter_space_complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "S",
+    "target": "ACE2:Spike_complex",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "ACE2",
+    "target": "ACE2:Spike_complex",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "S",
+    "target": "HSPA5-Spike interaction_complex",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "HSPA5_default_compartment",
+    "target": "HSPA5-Spike interaction_complex",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "ACE2,_space_soluble",
+    "target": "ACE2-SARS-CoV interaction_complex",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "ACE2,_space_membrane-bound",
+    "target": "ACE2-SARS-CoV interaction_complex",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "S",
+    "target": "ACE2-SARS-CoV interaction_complex",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "DDIT3",
+    "target": "PPP1R15A_rna",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "ATF4",
+    "target": "PPP1R15A_rna",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "PPP1R15A_gene",
+    "target": "PPP1R15A_rna",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "BAX_phosphorylated",
+    "target": "release_space_of_space_ER_space_Ca2+_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "MBTPS1",
+    "target": "ATF6_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "MBTPS2",
+    "target": "ATF6_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "ER_space_Stress_phenotype",
+    "target": "ATF6_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "ATF6_endoplasmic reticulum",
+    "target": "ATF6_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "retrograde_space_transport_space_from_space_ER_space_to_space_cytosol_phenotype",
+    "target": "ATF6_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "DDIT3",
+    "target": "DDIT3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "MAPK14_phosphorylated",
+    "target": "DDIT3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "TRAF2:ERN1_complex",
+    "target": "TRAF2",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "MFN2_endoplasmic reticulum",
+    "target": "endoplasmic_space_reticulum_space_organization_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "Ca2+space_ER_space_depletion_phenotype",
+    "target": "HSPA5_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "Unfolded_space_protein",
+    "target": "HSPA5_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "SIGMAR1:HSPA5_complex",
+    "target": "HSPA5_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "ATF6:HSPA5_complex",
+    "target": "HSPA5_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "HSPA5_rna",
+    "target": "HSPA5_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "ER_space_stress_phenotype",
+    "target": "HSPA5_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "ACE2",
+    "target": "HSPA5_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "ERO1A_endoplasmic reticulum",
+    "target": "ITPR",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "TMBIM6",
+    "target": "ITPR",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "Ternary_space_Complex_complex",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "GDP_simple_molecule",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "HSPA5_gene",
+    "target": "HSPA5_rna",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "S",
+    "target": "HSPA5_rna",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "ACE2",
+    "target": "HSPA5_rna",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "EIF2AK3:EIF2AK3_complex",
+    "target": "UPR_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "XBP1",
+    "target": "UPR_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "ATF6_Golgi apparatus",
+    "target": "UPR_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "TRAF2:ERN1_complex",
+    "target": "UPR_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "accumulation_space_of_space_misfolded_space_protein_space_in_space_ER_phenotype",
+    "target": "UPR_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "RMDN3",
+    "target": "Ca2+space_mitochondrial_space_concentration_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "VAPB",
+    "target": "Ca2+space_mitochondrial_space_concentration_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "FIS1",
+    "target": "Ca2+space_mitochondrial_space_concentration_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "PACS2_endoplasmic reticulum",
+    "target": "PACS2_endoplasmic reticulum",
+    "sign": false
+   },
+   {
+    "id": "t107",
+    "source": "accumulation_space_of_space_misfolded_space_protein_space_in_space_ER_phenotype",
+    "target": "ER_space_Stress_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "ATF6:HSPA5_complex",
+    "target": "ATF6_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "Unfolded_space_protein",
+    "target": "ATF6_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "DNAJC3_rna",
+    "target": "DNAJC3",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "DDIT3_gene",
+    "target": "DDIT3_rna",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "XBP1",
+    "target": "DDIT3_rna",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "ATF4",
+    "target": "DDIT3_rna",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "Persistant_space_ER_space_Stress_phenotype_cell",
+    "target": "DDIT3_rna",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "ATF6_nucleus",
+    "target": "DDIT3_rna",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "ATF4_gene",
+    "target": "ATF4_rna",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "EIF2-P:GDP_complex",
+    "target": "ATF4_rna",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "PPP2CA",
+    "target": "BCL2L11_cell",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "BCL2L11_phosphorylated",
+    "target": "BCL2L11_cell",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "TRIB3_gene",
+    "target": "TRIB3_rna",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "DDIT3",
+    "target": "TRIB3_rna",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "SIGMAR1:ITPR3_complex",
+    "target": "Ca2+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "Ca2+_ion_endoplasmic reticulum",
+    "target": "Ca2+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "ITPR3:HSPA9:VDAC1_complex",
+    "target": "Ca2+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "ERO1A_cell",
+    "target": "ERO1A_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "EIF2S1_phosphorylated",
+    "target": "EIF2S1",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "EIF2AK1",
+    "target": "EIF2S1",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "PPP1R15A",
+    "target": "EIF2S1",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "CASP9",
+    "target": "cleaved~CASP9",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "cleaved~CASP4",
+    "target": "cleaved~CASP9",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "ITPR3",
+    "target": "RMDN3",
+    "sign": false
+   },
+   {
+    "id": "t132",
+    "source": "VAPB",
+    "target": "RMDN3",
+    "sign": false
+   },
+   {
+    "id": "t133",
+    "source": "mitochondrion-endoplasmic_space_reticulum_space_membrane_space_tethering_space__phenotype",
+    "target": "RMDN3",
+    "sign": false
+   },
+   {
+    "id": "t134",
+    "source": "PPP1R15A_rna",
+    "target": "PPP1R15A",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "mitochondrial_space_fission_phenotype",
+    "target": "mitochondria_space_fragmentation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "FIS1",
+    "target": "mitochondrial_space_outer_space_membrane_space_depolarization_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "ER_space_stress_phenotype",
+    "target": "SIGMAR1_mitochondria-associated endoplasmic reticulum membrane",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "Ca2+space_ER_space_depletion_phenotype",
+    "target": "SIGMAR1_mitochondria-associated endoplasmic reticulum membrane",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "SIGMAR1:HSPA5_complex",
+    "target": "SIGMAR1_mitochondria-associated endoplasmic reticulum membrane",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "XBP1_gene",
+    "target": "XBP1_rna",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "ERN1:BCL2L11_complex",
+    "target": "XBP1_rna",
+    "sign": true
+   },
+   {
+    "id": "t142",
+    "source": "TRAF2:ERN1_complex",
+    "target": "XBP1_rna",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "ATF6_nucleus",
+    "target": "XBP1_rna",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "ERN1:BBC3_complex",
+    "target": "XBP1_rna",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "ERAD_phenotype",
+    "target": "accumulation_space_of_space_misfolded_space_protein_space_in_space_ER_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "Unfolded_space_protein",
+    "target": "accumulation_space_of_space_misfolded_space_protein_space_in_space_ER_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "DDIT3_phosphorylated",
+    "target": "BCL2_rna",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "BCL2_gene",
+    "target": "BCL2_rna",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "ERO1A_endoplasmic reticulum",
+    "target": "hyperoxidation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "retrograde_space_transport_space_from_space_ER_space_to_space_cytosol_phenotype",
+    "target": "protein_space_ubiquitination_space_and_space_destruction_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t151",
+    "source": "ER_space_Stress_phenotype",
+    "target": "CDK5",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "MAP3K5_phosphorylated",
+    "target": "MAPK14_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "MAPK14",
+    "target": "MAPK14_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "ERO1A_rna",
+    "target": "ERO1A_cell",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "Apoptosis_phenotype_cell",
+    "target": "Cell_space_survival_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "MFN2_endoplasmic reticulum",
+    "target": "unfolded_space_protein_space_response_space_(UPR)_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t157",
+    "source": "ER_space_stress_phenotype",
+    "target": "unfolded_space_protein_space_response_space_(UPR)_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t158",
+    "source": "p20",
+    "target": "unfolded_space_protein_space_response_space_(UPR)_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t159",
+    "source": "DNAJC3",
+    "target": "EIF2AK2",
+    "sign": true
+   },
+   {
+    "id": "t160",
+    "source": "presence_space_of_space_dsRNA_phenotype",
+    "target": "EIF2AK2",
+    "sign": true
+   },
+   {
+    "id": "t161",
+    "source": "Ca2+_ion_mitochondrion",
+    "target": "Ca2+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t162",
+    "source": "Mitochondrial_space_calcium_space_uniporter_space_complex_complex",
+    "target": "Ca2+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t163",
+    "source": "BAX_cell",
+    "target": "BAX_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t164",
+    "source": "MAPK14_phosphorylated",
+    "target": "BAX_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t165",
+    "source": "MAPK8_phosphorylated",
+    "target": "BAX_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t166",
+    "source": "ATF6_endoplasmic reticulum",
+    "target": "retrograde_space_transport_space_from_space_ER_space_to_space_cytosol_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t167",
+    "source": "EIF2AK3:EIF2AK3_complex",
+    "target": "retrograde_space_transport_space_from_space_ER_space_to_space_cytosol_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t168",
+    "source": "MAPK8",
+    "target": "MAPK8_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t169",
+    "source": "MAP3K5_phosphorylated",
+    "target": "MAPK8_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t170",
+    "source": "MAP3K4_phosphorylated",
+    "target": "MAPK8_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t171",
+    "source": "XBP1_rna",
+    "target": "XBP1",
+    "sign": true
+   },
+   {
+    "id": "t172",
+    "source": "Ternary_space_Complex_complex",
+    "target": "Translation_space_initiation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t173",
+    "source": "BID",
+    "target": "BID_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t174",
+    "source": "MAPK8_phosphorylated",
+    "target": "BID_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t175",
+    "source": "TRIB3_rna",
+    "target": "TRIB3",
+    "sign": true
+   },
+   {
+    "id": "t176",
+    "source": "CASP4",
+    "target": "cleaved~CASP4",
+    "sign": true
+   },
+   {
+    "id": "t177",
+    "source": "CAPN1:Ca2+_complex",
+    "target": "cleaved~CASP4",
+    "sign": true
+   },
+   {
+    "id": "t178",
+    "source": "SIGMAR1_mitochondria-associated endoplasmic reticulum membrane",
+    "target": "ER_space_stress_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t179",
+    "source": "MFN2_endoplasmic reticulum",
+    "target": "ER_space_stress_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t180",
+    "source": "ACE2",
+    "target": "ER_space_stress_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t181",
+    "source": "HYOU1_rna",
+    "target": "HYOU1",
+    "sign": true
+   },
+   {
+    "id": "t182",
+    "source": "CASP3",
+    "target": "cleaved~CASP3",
+    "sign": true
+   },
+   {
+    "id": "t183",
+    "source": "cleaved~CASP4",
+    "target": "cleaved~CASP3",
+    "sign": true
+   },
+   {
+    "id": "t184",
+    "source": "EIF2AK3:EIF2AK3_complex",
+    "target": "EIF2S1_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t185",
+    "source": "EIF2AK2",
+    "target": "EIF2S1_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t186",
+    "source": "DNAJC3",
+    "target": "EIF2S1_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t187",
+    "source": "EIF2S1",
+    "target": "EIF2S1_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t188",
+    "source": "GCN2:ATP_complex",
+    "target": "EIF2S1_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t189",
+    "source": "MFN1:MFN2_complex",
+    "target": "mitochondrion-endoplasmic_space_reticulum_space_membrane_space_tethering_space__phenotype",
+    "sign": true
+   },
+   {
+    "id": "t190",
+    "source": "VAPB:RMDN3_complex",
+    "target": "mitochondrion-endoplasmic_space_reticulum_space_membrane_space_tethering_space__phenotype",
+    "sign": true
+   },
+   {
+    "id": "t191",
+    "source": "PACS2_endoplasmic reticulum",
+    "target": "mitochondrion-endoplasmic_space_reticulum_space_membrane_space_tethering_space__phenotype",
+    "sign": true
+   },
+   {
+    "id": "t192",
+    "source": "FIS1:BCAP31_complex",
+    "target": "mitochondrion-endoplasmic_space_reticulum_space_membrane_space_tethering_space__phenotype",
+    "sign": true
+   },
+   {
+    "id": "t193",
+    "source": "MFN2:MFN2_complex",
+    "target": "mitochondrion-endoplasmic_space_reticulum_space_membrane_space_tethering_space__phenotype",
+    "sign": true
+   },
+   {
+    "id": "t194",
+    "source": "AP-1",
+    "target": "AP-1_phosphorylated_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t195",
+    "source": "DDIT3",
+    "target": "AP-1_phosphorylated_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t196",
+    "source": "MAPK8_phosphorylated",
+    "target": "AP-1_phosphorylated_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t197",
+    "source": "EIF2:GDP:Met-tRNA_complex",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t198",
+    "source": "GTP_simple_molecule",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t199",
+    "source": "EIF2B_complex",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t200",
+    "source": "TMBIM6",
+    "target": "Ca2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t201",
+    "source": "ITPR",
+    "target": "Ca2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t202",
+    "source": "Ca2+_ion_endoplasmic reticulum",
+    "target": "Ca2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t203",
+    "source": "RYR1",
+    "target": "Ca2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t204",
+    "source": "BCAP31",
+    "target": "p20",
+    "sign": true
+   },
+   {
+    "id": "t205",
+    "source": "PACS2_endoplasmic reticulum",
+    "target": "p20",
+    "sign": true
+   },
+   {
+    "id": "t206",
+    "source": "Apoptosis_phenotype_endoplasmic reticulum",
+    "target": "p20",
+    "sign": true
+   },
+   {
+    "id": "t207",
+    "source": "ATF4_rna",
+    "target": "ATF4",
+    "sign": true
+   },
+   {
+    "id": "t208",
+    "source": "MAP3K5",
+    "target": "MAP3K5_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t209",
+    "source": "TRAF2",
+    "target": "MAP3K5_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t210",
+    "source": "TRAF2:ERN1_complex",
+    "target": "MAP3K5_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t211",
+    "source": "SIGMAR1_mitochondria-associated endoplasmic reticulum membrane",
+    "target": "Apoptosis_phenotype_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t212",
+    "source": "ER_space_stress_phenotype",
+    "target": "Apoptosis_phenotype_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t213",
+    "source": "MFN2_endoplasmic reticulum",
+    "target": "Apoptosis_phenotype_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t214",
+    "source": "ATF6_nucleus",
+    "target": "DNAJC3_rna",
+    "sign": true
+   },
+   {
+    "id": "t215",
+    "source": "DNAJC3_gene",
+    "target": "DNAJC3_rna",
+    "sign": true
+   },
+   {
+    "id": "t216",
+    "source": "DDIT3_rna",
+    "target": "DDIT3",
+    "sign": true
+   },
+   {
+    "id": "t217",
+    "source": "MFN2_rna",
+    "target": "MFN2_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t218",
+    "source": "ER_space_stress_phenotype",
+    "target": "MFN2_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t219",
+    "source": "PACS2-ADAM17_space_interaction_complex",
+    "target": "ADAM17_cell",
+    "sign": true
+   },
+   {
+    "id": "t220",
+    "source": "XBP1",
+    "target": "ERAD_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t221",
+    "source": "MFN2_gene",
+    "target": "MFN2_rna",
+    "sign": true
+   },
+   {
+    "id": "t222",
+    "source": "CASP8:FADD:MAP1LC3A:SQSTM1:ATG5_complex",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t223",
+    "source": "cleaved~CASP9",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t224",
+    "source": "DDIT3_phosphorylated",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t225",
+    "source": "BID_phosphorylated",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t226",
+    "source": "BAX_phosphorylated",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t227",
+    "source": "TRIB3",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t228",
+    "source": "MAPK14_phosphorylated",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t229",
+    "source": "cleaved~CASP3",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t230",
+    "source": "BCL2L11_phosphorylated",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t231",
+    "source": "Cell_space_survival_phenotype",
+    "target": "Apoptosis_phenotype_cell",
+    "sign": true
+   },
+   {
+    "id": "t232",
+    "source": "Mitochondrial_space_calcium_space_uniporter_space_complex_complex",
+    "target": "mitochondrial_space_calcium_space_ion_space_transmembrane_space_transport_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t233",
+    "source": "ADAM17_cell",
+    "target": "ACE2,_space_soluble",
+    "sign": true
+   },
+   {
+    "id": "t234",
+    "source": "ACE2",
+    "target": "ACE2,_space_soluble",
+    "sign": true
+   },
+   {
+    "id": "t235",
+    "source": "ER_space_Stress_phenotype",
+    "target": "Persistant_space_ER_space_Stress_phenotype_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t236",
+    "source": "release_space_of_space_ER_space_Ca2+_phenotype",
+    "target": "high_space_Ca2+space_cytosolic_space_concentration_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t237",
+    "source": "Ca2+_ion_cell",
+    "target": "high_space_Ca2+space_cytosolic_space_concentration_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t238",
+    "source": "ATF6_Golgi apparatus",
+    "target": "ATF6_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t239",
+    "source": "HSPA5_endoplasmic reticulum",
+    "target": "endoplasmic_space_reticulum_space_calcium_space_ion_space_homeostasis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t240",
+    "source": "MFN2_endoplasmic reticulum",
+    "target": "endoplasmic_space_reticulum_space_calcium_space_ion_space_homeostasis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t241",
+    "source": "MAP3K4",
+    "target": "MAP3K4_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t242",
+    "source": "CDK5",
+    "target": "MAP3K4_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t243",
+    "source": "RMDN3",
+    "target": "VAPB",
+    "sign": false
+   },
+   {
+    "id": "t244",
+    "source": "HYOU1_gene",
+    "target": "HYOU1_rna",
+    "sign": true
+   },
+   {
+    "id": "t245",
+    "source": "ATF6_nucleus",
+    "target": "HYOU1_rna",
+    "sign": true
+   },
+   {
+    "id": "t246",
+    "source": "BCL2L11_cell",
+    "target": "BCL2L11_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t247",
+    "source": "MAPK8_phosphorylated",
+    "target": "BCL2L11_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t248",
+    "source": "ERO1A_gene",
+    "target": "ERO1A_rna",
+    "sign": true
+   },
+   {
+    "id": "t249",
+    "source": "ATF6_nucleus",
+    "target": "ERO1A_rna",
+    "sign": true
+   },
+   {
+    "id": "t250",
+    "source": "DDIT3",
+    "target": "ERO1A_rna",
+    "sign": true
+   },
+   {
+    "id": "t251",
+    "source": "ADAM17_cell",
+    "target": "ACE2,_space_membrane-bound",
+    "sign": true
+   },
+   {
+    "id": "t252",
+    "source": "ACE2",
+    "target": "ACE2,_space_membrane-bound",
+    "sign": true
+   },
+   {
+    "id": "t253",
+    "source": "ACE2",
+    "target": "ACE2",
+    "sign": false
+   },
+   {
+    "id": "t254",
+    "source": "SARS-CoV infection_phenotype",
+    "target": "viral entry into host cell_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t255",
+    "source": "ACE2-SARS-CoV interaction_complex",
+    "target": "viral entry into host cell_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t256",
+    "source": "ACE2,_space_soluble",
+    "target": "viral entry into host cell_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t257",
+    "source": "HSPA5-Spike interaction_complex",
+    "target": "viral entry into host cell_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t258",
+    "source": "viral entry into host cell_phenotype",
+    "target": "viral entry into host cell_phenotype",
+    "sign": false
+   },
+   {
+    "id": "t259",
+    "source": "ACE2",
+    "target": "viral RNA genome replication_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/ETC.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/ETC.json
new file mode 100644
index 000000000..746958cc9
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/ETC.json
@@ -0,0 +1,1856 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "Nsp4_mitochondrion",
+    "name": "Nsp4_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TIM_space_complex_complex",
+    "name": "TIM_space_complex_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P62072"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TIM_space_complex:Nsp4_complex",
+    "name": "TIM_space_complex:Nsp4_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9Y584"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F-ATPase_complex_mitochondrial matrix",
+    "name": "F-ATPase_complex_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "29440398"
+     },
+     "context": {
+      "property": "uniprot:O75964"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_mitochondrion",
+    "name": "H+_ion_mitochondrion",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "29235"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6",
+    "name": "Nsp6",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:YP_009742613"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_space_Synthase_complex",
+    "name": "ATP_space_Synthase_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P00846"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mt_space_mRNA_rna",
+    "name": "mt_space_mRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mt_space_translation_complex",
+    "name": "Mt_space_translation_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P43897"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mt_space_ribosomal_space_proteins_complex",
+    "name": "Mt_space_ribosomal_space_proteins_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P09001"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp8-affected Mt ribosomal proteins_complex",
+    "name": "Nsp8-affected Mt ribosomal proteins_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P82663"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "name": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "23149385"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADH_simple_molecule",
+    "name": "NADH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Complex_space_1_complex",
+    "name": "Complex_space_1_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O00217"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NDUFA1",
+    "name": "NDUFA1",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O15239"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NDUFB9",
+    "name": "NDUFB9",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9Y6M9"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OXPHOS_space_factors_complex",
+    "name": "OXPHOS_space_factors_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "23149385"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP5MG",
+    "name": "ATP5MG",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O75964"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F-ATPase_complex_mitochondrial matrix",
+    "name": "F-ATPase_complex_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "21524994"
+     },
+     "context": {
+      "property": "GO:0005753",
+      "property1": "uniprot:O75964"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACAD9",
+    "name": "ACAD9",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9H845"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ECSIT",
+    "name": "ECSIT",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9BQ95"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NDUFAF7",
+    "name": "NDUFAF7",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q7L592"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "complex_space_2_complex_mitochondrial matrix",
+    "name": "complex_space_2_complex_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O14521"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Q_simple_molecule_mitochondrial matrix",
+    "name": "Q_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16389"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIRT3",
+    "name": "SIRT3",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_001017524"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "complex_space_3_complex",
+    "name": "complex_space_3_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O14949"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TCA_phenotype",
+    "name": "TCA_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0006099"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mt_space_DNA_gene",
+    "name": "mt_space_DNA_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0000262"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mt-tRNA_space_synthetase_complex",
+    "name": "Mt-tRNA_space_synthetase_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P41250"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRMT1",
+    "name": "TRMT1",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9NXH9"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MT_space_tRNAs_complex",
+    "name": "MT_space_tRNAs_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "A0A0C5B5G6"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp8",
+    "name": "Nsp8",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:YP_009742615"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "paraquat_simple_molecule",
+    "name": "paraquat_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "34905"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O2_simple_molecule",
+    "name": "O2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15379"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "paraquat_space_dication_complex",
+    "name": "paraquat_space_dication_complex",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "34905"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CYCS_mitochondrial matrix",
+    "name": "CYCS_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "complex_space_4_complex",
+    "name": "complex_space_4_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P00395"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4_cell",
+    "name": "Nsp4_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNAJC11",
+    "name": "DNAJC11",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_018198"
+     },
+     "context": {
+      "property": "uniprot:Q9NVH1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4:DNAJC11_complex",
+    "name": "Nsp4:DNAJC11_complex",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_018198"
+     },
+     "context": {
+      "property": "ncbiprotein:BCD58761",
+      "property1": "taxonomy:2697049",
+      "property2": "uniprot:Q9NVH1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F-ATPase:Nsp6_complex",
+    "name": "F-ATPase:Nsp6_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P03901"
+     },
+     "context": {
+      "property": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "hydroxide_simple_molecule",
+    "name": "hydroxide_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16234"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe2+_ion",
+    "name": "Fe2+_ion",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "29033"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O2_simple_molecule",
+    "name": "H2O2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe3+_ion",
+    "name": "Fe3+_ion",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "29034"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "superoxide_simple_molecule",
+    "name": "superoxide_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "1842"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TFAM",
+    "name": "TFAM",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_003201"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MT_space_transcription_complex",
+    "name": "MT_space_transcription_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O00411"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "damaged_space_mt_space_DNA_gene",
+    "name": "damaged_space_mt_space_DNA_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9c",
+    "name": "Orf9c",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:AIA62288"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_mitochondrial matrix",
+    "name": "H+_ion_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SOD1",
+    "name": "SOD1",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P00441"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SOD2",
+    "name": "SOD2",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P04179"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mt_space_DNA_space_replication_phenotype",
+    "name": "mt_space_DNA_space_replication_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mt-DNA_space_repair_complex",
+    "name": "Mt-DNA_space_repair_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P0DP91"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mt-dNTP_space_pool_complex",
+    "name": "Mt-dNTP_space_pool_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O00142"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mt_space_DNA_space_damage_phenotype",
+    "name": "mt_space_DNA_space_damage_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "glutathione_simple_molecule",
+    "name": "glutathione_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16856"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GPX4",
+    "name": "GPX4",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P36969"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GPX1",
+    "name": "GPX1",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P07203"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CAT",
+    "name": "CAT",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P04040"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TXN2",
+    "name": "TXN2",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q99757"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRDX_complex",
+    "name": "PRDX_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P30041"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule",
+    "name": "H2O_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "name": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17976"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ROS_simple_molecule",
+    "name": "ROS_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "26523"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADPH_simple_molecule",
+    "name": "NADPH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TXNRD2",
+    "name": "TXNRD2",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9NNW7"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "glutathione_space_disulfide_simple_molecule",
+    "name": "glutathione_space_disulfide_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "58297"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GSR",
+    "name": "GSR",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P00390"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADP(+)_simple_molecule",
+    "name": "NADP(+)_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HO_simple_molecule",
+    "name": "HO_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "49648"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP_simple_molecule",
+    "name": "ADP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pi_simple_molecule",
+    "name": "Pi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_simple_molecule",
+    "name": "ATP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mt_space_replication_complex",
+    "name": "Mt_space_replication_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P54098"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TOM_space_complex_complex_mitochondrion",
+    "name": "TOM_space_complex_complex_mitochondrion",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O94826"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TIM23_space_complex_complex",
+    "name": "TIM23_space_complex_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O14925"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b",
+    "name": "Orf9b",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:APO40587"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "precursor_space_protein_space_N-terminus_space_binding",
+    "name": "precursor_space_protein_space_N-terminus_space_binding",
+    "grounding": {
+     "identifiers": {
+      "GO": "0047485"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAD+_simple_molecule",
+    "name": "NAD+_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O2-_simple_molecule",
+    "name": "O2-_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "29356"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp7",
+    "name": "Nsp7",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:YP_009725303"
+     }
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "TIM_space_complex_complex",
+    "target": "TIM_space_complex:Nsp4_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "Nsp4_mitochondrion",
+    "target": "TIM_space_complex:Nsp4_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "Nsp6",
+    "target": "ATP_space_Synthase_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "H+_ion_mitochondrion",
+    "target": "ATP_space_Synthase_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "F-ATPase_complex_mitochondrial matrix",
+    "target": "ATP_space_Synthase_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "Mt_space_ribosomal_space_proteins_complex",
+    "target": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "mt_space_mRNA_rna",
+    "target": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "Mt_space_translation_complex",
+    "target": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "Nsp8-affected Mt ribosomal proteins_complex",
+    "target": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "target": "Complex_space_1_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "OXPHOS_space_factors_complex",
+    "target": "Complex_space_1_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "NDUFB9",
+    "target": "Complex_space_1_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "NADH_simple_molecule",
+    "target": "Complex_space_1_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "NDUFA1",
+    "target": "Complex_space_1_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "ATP5MG",
+    "target": "F-ATPase_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "F-ATPase_complex_mitochondrial matrix",
+    "target": "F-ATPase_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "NDUFAF7",
+    "target": "OXPHOS_space_factors_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "ECSIT",
+    "target": "OXPHOS_space_factors_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "ACAD9",
+    "target": "OXPHOS_space_factors_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "Complex_space_1_complex",
+    "target": "complex_space_2_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "SIRT3",
+    "target": "complex_space_2_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "OXPHOS_space_factors_complex",
+    "target": "complex_space_2_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "Q_simple_molecule_mitochondrial matrix",
+    "target": "complex_space_2_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "Complex_space_1_complex",
+    "target": "complex_space_3_complex",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "OXPHOS_space_factors_complex",
+    "target": "complex_space_3_complex",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "Q_simple_molecule_mitochondrial matrix",
+    "target": "complex_space_3_complex",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "target": "complex_space_3_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "TCA_phenotype",
+    "target": "complex_space_2_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "Mt-tRNA_space_synthetase_complex",
+    "target": "MT_space_tRNAs_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "mt_space_DNA_gene",
+    "target": "MT_space_tRNAs_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "TRMT1",
+    "target": "MT_space_tRNAs_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "Nsp8",
+    "target": "Nsp8",
+    "sign": false
+   },
+   {
+    "id": "t33",
+    "source": "O2_simple_molecule",
+    "target": "paraquat_space_dication_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "paraquat_simple_molecule",
+    "target": "paraquat_space_dication_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "complex_space_3_complex",
+    "target": "complex_space_4_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "CYCS_mitochondrial matrix",
+    "target": "complex_space_4_complex",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "OXPHOS_space_factors_complex",
+    "target": "complex_space_4_complex",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "mtDNA_space_encoded_space_OXPHOS_space_units_complex_mitochondrial matrix",
+    "target": "complex_space_4_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "Nsp4_cell",
+    "target": "Nsp4:DNAJC11_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "DNAJC11",
+    "target": "Nsp4:DNAJC11_complex",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "ATP5MG",
+    "target": "F-ATPase:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "Nsp6",
+    "target": "F-ATPase:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "Fe2+_ion",
+    "target": "Fe3+_ion",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "H2O2_simple_molecule",
+    "target": "Fe3+_ion",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "hydroxide_simple_molecule",
+    "target": "Fe3+_ion",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "superoxide_simple_molecule",
+    "target": "paraquat_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "Complex_space_1_complex",
+    "target": "paraquat_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "paraquat_space_dication_complex",
+    "target": "paraquat_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "MT_space_transcription_complex",
+    "target": "mt_space_mRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "TFAM",
+    "target": "mt_space_mRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "damaged_space_mt_space_DNA_gene",
+    "target": "mt_space_mRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "mt_space_DNA_gene",
+    "target": "mt_space_mRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "Orf9c",
+    "target": "Orf9c",
+    "sign": false
+   },
+   {
+    "id": "t54",
+    "source": "superoxide_simple_molecule",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "SOD2",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "SOD1",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "H2O2_simple_molecule",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "hydroxide_simple_molecule",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "ATP_space_Synthase_complex",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "Fe3+_ion",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "superoxide_simple_molecule",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "NADH_simple_molecule",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "Complex_space_1_complex",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "TFAM",
+    "target": "mt_space_DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "Mt-DNA_space_repair_complex",
+    "target": "mt_space_DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "mt_space_DNA_space_replication_phenotype",
+    "target": "mt_space_DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "damaged_space_mt_space_DNA_gene",
+    "target": "mt_space_DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "Mt-dNTP_space_pool_complex",
+    "target": "mt_space_DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "mt_space_DNA_space_damage_phenotype",
+    "target": "mt_space_DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "superoxide_simple_molecule",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "Fe3+_ion",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "TXN2",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "PRDX_complex",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "GPX1",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "H2O2_simple_molecule",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "hydroxide_simple_molecule",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "glutathione_simple_molecule",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "GPX4",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "CAT",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "O2_simple_molecule",
+    "target": "Q_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "Q_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "target": "Q_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "complex_space_3_complex",
+    "target": "Q_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "CYCS_mitochondrial matrix",
+    "target": "Q_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "superoxide_simple_molecule",
+    "target": "ROS_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "H2O2_simple_molecule",
+    "target": "ROS_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "hydroxide_simple_molecule",
+    "target": "ROS_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "TXNRD2",
+    "target": "TXN2",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "NADPH_simple_molecule",
+    "target": "TXN2",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "H2O2_simple_molecule",
+    "target": "TXN2",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "PRDX_complex",
+    "target": "TXN2",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "TXN2",
+    "target": "NADP(+)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "glutathione_space_disulfide_simple_molecule",
+    "target": "NADP(+)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "NADPH_simple_molecule",
+    "target": "NADP(+)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "TXNRD2",
+    "target": "NADP(+)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "GSR",
+    "target": "NADP(+)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "Fe2+_ion",
+    "target": "HO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "H2O2_simple_molecule",
+    "target": "HO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "hydroxide_simple_molecule",
+    "target": "HO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "superoxide_simple_molecule",
+    "target": "O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "Fe3+_ion",
+    "target": "O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "O2_simple_molecule",
+    "target": "H+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "H+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "target": "H+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "complex_space_3_complex",
+    "target": "H+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "CYCS_mitochondrial matrix",
+    "target": "H+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "Complex_space_1_complex",
+    "target": "H+_ion_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "O2_simple_molecule",
+    "target": "superoxide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "H2O2_simple_molecule",
+    "target": "superoxide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "hydroxide_simple_molecule",
+    "target": "superoxide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "paraquat_simple_molecule",
+    "target": "superoxide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "Orf9c",
+    "target": "Orf9c",
+    "sign": false
+   },
+   {
+    "id": "t114",
+    "source": "mt_space_DNA_space_damage_phenotype",
+    "target": "damaged_space_mt_space_DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "mt_space_DNA_gene",
+    "target": "damaged_space_mt_space_DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "Fe2+_ion",
+    "target": "hydroxide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "H2O2_simple_molecule",
+    "target": "hydroxide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "ATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "ADP_simple_molecule",
+    "target": "ATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "Pi_simple_molecule",
+    "target": "ATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "ATP_space_Synthase_complex",
+    "target": "ATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "Complex_space_1_complex",
+    "target": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "complex_space_2_complex_mitochondrial matrix",
+    "target": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "Q_simple_molecule_mitochondrial matrix",
+    "target": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "Mt-dNTP_space_pool_complex",
+    "target": "mt_space_DNA_space_replication_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "TFAM",
+    "target": "mt_space_DNA_space_replication_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "Mt_space_replication_complex",
+    "target": "mt_space_DNA_space_replication_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "glutathione_space_disulfide_simple_molecule",
+    "target": "glutathione_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "NADPH_simple_molecule",
+    "target": "glutathione_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "GSR",
+    "target": "glutathione_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "Orf9c",
+    "target": "Orf9c",
+    "sign": false
+   },
+   {
+    "id": "t132",
+    "source": "H2O2_simple_molecule",
+    "target": "glutathione_space_disulfide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "glutathione_simple_molecule",
+    "target": "glutathione_space_disulfide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "GPX4",
+    "target": "glutathione_space_disulfide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "GPX1",
+    "target": "glutathione_space_disulfide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "TOM_space_complex_complex_mitochondrion",
+    "target": "precursor_space_protein_space_N-terminus_space_binding",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "TIM23_space_complex_complex",
+    "target": "precursor_space_protein_space_N-terminus_space_binding",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "TIM_space_complex:Nsp4_complex",
+    "target": "precursor_space_protein_space_N-terminus_space_binding",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "TIM_space_complex_complex",
+    "target": "precursor_space_protein_space_N-terminus_space_binding",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "Orf9b",
+    "target": "precursor_space_protein_space_N-terminus_space_binding",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "Orf9c",
+    "target": "Orf9c",
+    "sign": false
+   },
+   {
+    "id": "t142",
+    "source": "SIRT3",
+    "target": "SOD2",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "NADH_simple_molecule",
+    "target": "NAD+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "Complex_space_1_complex",
+    "target": "NAD+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "O2_simple_molecule",
+    "target": "O2-_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "O2-_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "target": "O2-_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "complex_space_3_complex",
+    "target": "O2-_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "CYCS_mitochondrial matrix",
+    "target": "O2-_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "Nsp7",
+    "target": "Nsp7",
+    "sign": false
+   },
+   {
+    "id": "t151",
+    "source": "Nsp4_cell",
+    "target": "Nsp4_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "TOM_space_complex_complex_mitochondrion",
+    "target": "Nsp4_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "complex_space_3_complex",
+    "target": "CYCS_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "CYCS_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "O2_simple_molecule",
+    "target": "CYCS_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "ubiquinol_simple_molecule_mitochondrial matrix",
+    "target": "CYCS_mitochondrial matrix",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/E_protein.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/E_protein.json
new file mode 100644
index 000000000..bea08f12a
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/E_protein.json
@@ -0,0 +1,561 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "histone_complex_nucleus",
+    "name": "histone_complex_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BRD4",
+    "name": "BRD4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BRD2",
+    "name": "BRD2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H4C14",
+    "name": "H4C14",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H4-16",
+    "name": "H4-16",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H4C1",
+    "name": "H4C1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H3C15",
+    "name": "H3C15",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H3C1",
+    "name": "H3C1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H4C9",
+    "name": "H4C9",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2BC21",
+    "name": "H2BC21",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2A",
+    "name": "H2A",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MPP5",
+    "name": "MPP5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "CRB3",
+    "name": "CRB3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "PATJ",
+    "name": "PATJ",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "CRB3:PALS1:PATJ complex_complex",
+    "name": "CRB3:PALS1:PATJ complex_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ASIC1",
+    "name": "ASIC1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STOML3",
+    "name": "STOML3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_cell",
+    "name": "E_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:BCD58755"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ASIC1 trimer:H+:STOML3_complex",
+    "name": "ASIC1 trimer:H+:STOML3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E-PALS1_complex",
+    "name": "E-PALS1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CDK9",
+    "name": "CDK9",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CCNT1",
+    "name": "CCNT1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "P-TEFb_complex",
+    "name": "P-TEFb_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_nucleus",
+    "name": "E_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TBP",
+    "name": "TBP",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "JQ-1_simple_molecule",
+    "name": "JQ-1_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion",
+    "name": "H+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP1A:ATP1B:FXYDs_complex",
+    "name": "ATP1A:ATP1B:FXYDs_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "K+_ion",
+    "name": "K+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Na+_ion",
+    "name": "Na+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Activity of sodium channels_phenotype",
+    "name": "Activity of sodium channels_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Maintenance of tight junction_phenotype",
+    "name": "Maintenance of tight junction_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RNA Polymerase II-dependent Transcription _phenotype",
+    "name": "RNA Polymerase II-dependent Transcription _phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Chromatin organization_phenotype",
+    "name": "Chromatin organization_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "BRD4",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "BRD2",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "H4-16",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "H2BC21",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "H4C1",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "H4C14",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "H4C9",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "H3C1",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "H3C15",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "H2A",
+    "target": "histone_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "PATJ",
+    "target": "CRB3:PALS1:PATJ complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "CRB3",
+    "target": "CRB3:PALS1:PATJ complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "MPP5",
+    "target": "CRB3:PALS1:PATJ complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "ASIC1",
+    "target": "ASIC1 trimer:H+:STOML3_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "STOML3",
+    "target": "ASIC1 trimer:H+:STOML3_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "E_cell",
+    "target": "ASIC1 trimer:H+:STOML3_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "E_cell",
+    "target": "E_cell",
+    "sign": false
+   },
+   {
+    "id": "t18",
+    "source": "E_cell",
+    "target": "E-PALS1_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "MPP5",
+    "target": "E-PALS1_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "CDK9",
+    "target": "P-TEFb_complex",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "CCNT1",
+    "target": "P-TEFb_complex",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "BRD4",
+    "target": "CDK9",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "BRD4",
+    "target": "CCNT1",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "E_nucleus",
+    "target": "BRD4",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "BRD2",
+    "target": "TBP",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "E_nucleus",
+    "target": "BRD2",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "JQ-1_simple_molecule",
+    "target": "BRD2",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "H+_ion",
+    "target": "ASIC1",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "ATP1A:ATP1B:FXYDs_complex",
+    "target": "K+_ion",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "ATP1A:ATP1B:FXYDs_complex",
+    "target": "Na+_ion",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "ASIC1 trimer:H+:STOML3_complex",
+    "target": "Activity of sodium channels_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "STOML3",
+    "target": "Activity of sodium channels_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "ATP1A:ATP1B:FXYDs_complex",
+    "target": "Activity of sodium channels_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "CRB3:PALS1:PATJ complex_complex",
+    "target": "Maintenance of tight junction_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "E-PALS1_complex",
+    "target": "Maintenance of tight junction_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "P-TEFb_complex",
+    "target": "RNA Polymerase II-dependent Transcription _phenotype",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "histone_complex_nucleus",
+    "target": "Chromatin organization_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/HMOX1_Pathway.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/HMOX1_Pathway.json
new file mode 100644
index 000000000..5689054f9
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/HMOX1_Pathway.json
@@ -0,0 +1,3147 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "NRF2_phosphorylated_nucleus",
+    "name": "NRF2_phosphorylated_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q16236"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAF",
+    "name": "MAF",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O75444"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nrf2/Maf_complex",
+    "name": "Nrf2/Maf_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BACH1",
+    "name": "BACH1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:571",
+      "property1": "uniprot:O14867"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BACH1/Maf_complex",
+    "name": "BACH1/Maf_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E2_ubiquitinated",
+    "name": "E2_ubiquitinated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "interpro:IPR000608"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ubiquitin Ligase Complex_complex_cell",
+    "name": "Ubiquitin Ligase Complex_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P62877",
+      "property1": "uniprot:Q13618",
+      "property2": "uniprot:Q14145",
+      "property3": "uniprot:Q15843",
+      "property4": "uniprot:Q16236"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ubiquitin Ligase Complex_complex_cell",
+    "name": "Ubiquitin Ligase Complex_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "interpro:IPR000608",
+      "property1": "uniprot:P62877",
+      "property2": "uniprot:Q13618",
+      "property3": "uniprot:Q14145",
+      "property4": "uniprot:Q15843",
+      "property5": "uniprot:Q16236"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ubiquitin Ligase Complex_complex_cell",
+    "name": "Ubiquitin Ligase Complex_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "interpro:IPR000608",
+      "property1": "uniprot:P0CG48",
+      "property2": "uniprot:P62877",
+      "property3": "uniprot:Q13618",
+      "property4": "uniprot:Q14145",
+      "property5": "uniprot:Q15843",
+      "property6": "uniprot:Q16236"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "NRF2_empty",
+    "name": "NRF2_empty",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q16236"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "KEAP1",
+    "name": "KEAP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14145"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Dimethly fumarate_drug",
+    "name": "Dimethly fumarate_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:76004"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NRF2:KEAP1_complex",
+    "name": "NRF2:KEAP1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14145",
+      "property1": "uniprot:Q16236"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CUL3:RBX1_complex",
+    "name": "CUL3:RBX1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P62877",
+      "property1": "uniprot:Q13618"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Neddylated CUL3:RBX1_complex",
+    "name": "Neddylated CUL3:RBX1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P62877",
+      "property1": "uniprot:Q13618",
+      "property2": "uniprot:Q15843"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC40A1_rna",
+    "name": "SLC40A1_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:30061",
+      "property1": "ncbigene:30061"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC40A1:CP:Cu2+_complex",
+    "name": "SLC40A1:CP:Cu2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29036",
+      "property1": "uniprot:P00450",
+      "property2": "uniprot:Q9NP59"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CAND1",
+    "name": "CAND1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q86VP6"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe3+_ion_default_compartment",
+    "name": "Fe3+_ion_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29034"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Transferrin",
+    "name": "Transferrin",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P02787"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "holoTF_complex",
+    "name": "holoTF_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29034",
+      "property1": "uniprot:P02787"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TFRC",
+    "name": "TFRC",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P02786"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TFRC:holoTF_complex_cell",
+    "name": "TFRC:holoTF_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29034",
+      "property1": "uniprot:P02786",
+      "property2": "uniprot:P02787"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TFRC:holoTF_complex_endosome",
+    "name": "TFRC:holoTF_complex_endosome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29034",
+      "property1": "uniprot:P02786",
+      "property2": "uniprot:P02787"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TFRC:TF_complex_endosome",
+    "name": "TFRC:TF_complex_endosome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P02786",
+      "property1": "uniprot:P02787"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TFRC:TF_complex_cell",
+    "name": "TFRC:TF_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P02786",
+      "property1": "uniprot:P02787"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3_cell",
+    "name": "NLRP3_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q96P20"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TXNIP",
+    "name": "TXNIP",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9H3M7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TXNIP:NLRP3_complex",
+    "name": "TXNIP:NLRP3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q96P20",
+      "property1": "uniprot:Q9H3M7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SUGT1:HSP90AB1_complex",
+    "name": "SUGT1:HSP90AB1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P08238",
+      "property1": "uniprot:P08238",
+      "property2": "uniprot:Q9Y2Z0",
+      "property3": "uniprot:Q9Y2Z0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3:SUGT1:HSP90_complex",
+    "name": "NLRP3:SUGT1:HSP90_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P08238",
+      "property1": "uniprot:Q96P20",
+      "property2": "uniprot:Q9Y2Z0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BLVRA_rna",
+    "name": "BLVRA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:644",
+      "property1": "ncbigene:644"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BLVRA:Zn2+_complex",
+    "name": "BLVRA:Zn2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29805",
+      "property1": "uniprot:P53004"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TXN_cell",
+    "name": "TXN_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P10599"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thioredoxin:TXNIP_complex",
+    "name": "Thioredoxin:TXNIP_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P10599",
+      "property1": "uniprot:Q9H3M7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pyrin trimer_complex",
+    "name": "Pyrin trimer_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O15553"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PSTPIP1",
+    "name": "PSTPIP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O43586"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PSTPIP1 trimer:Pyrin trimer_complex",
+    "name": "PSTPIP1 trimer:Pyrin trimer_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O15553",
+      "property1": "uniprot:O43586"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3_cell_active",
+    "name": "NLRP3_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ASC",
+    "name": "ASC",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "name": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P29466",
+      "property1": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CTSG",
+    "name": "CTSG",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P08311"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3 oligomer:ASC_complex",
+    "name": "NLRP3 oligomer:ASC_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:36080",
+      "property1": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pyrin trimer:ASC_complex",
+    "name": "Pyrin trimer:ASC_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O15553",
+      "property1": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP1_cell",
+    "name": "CASP1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P29466"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FTH1_rna",
+    "name": "FTH1_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:2495",
+      "property1": "ncbigene:2495"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FTL_rna",
+    "name": "FTL_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:2512",
+      "property1": "ncbigene:2512"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ferritin_complex",
+    "name": "Ferritin_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P02794"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Bilirubin_simple_molecule_default_compartment",
+    "name": "Bilirubin_simple_molecule_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16990"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ALB",
+    "name": "ALB",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P02768"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ALB/BIL_complex",
+    "name": "ALB/BIL_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16990",
+      "property1": "uniprot:P02768"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP1(120-197):CASP1(317-404)_complex",
+    "name": "CASP1(120-197):CASP1(317-404)_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P29466",
+      "property1": "uniprot:P29466"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Caspase-1 Tetramer_complex",
+    "name": "Caspase-1 Tetramer_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P29466",
+      "property1": "uniprot:P29466"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Heme_simple_molecule_mitochondrial matrix",
+    "name": "Heme_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30413"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FLVCR1-2",
+    "name": "FLVCR1-2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9Y5Y0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Heme_simple_molecule_cell",
+    "name": "Heme_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30413"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O2_simple_molecule_cell",
+    "name": "O2_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15379"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADPH_simple_molecule",
+    "name": "NADPH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16474"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HMOX1_cell_active",
+    "name": "HMOX1_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Biliverdin_simple_molecule",
+    "name": "Biliverdin_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17033"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRIN9_simple_molecule_mitochondrial matrix",
+    "name": "PRIN9_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15430"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe2+_ion_mitochondrial matrix",
+    "name": "Fe2+_ion_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29033"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FECH",
+    "name": "FECH",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P22830"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pb2+_ion",
+    "name": "Pb2+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:27889"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dALA_simple_molecule_cell",
+    "name": "dALA_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:356416"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ALAD:Zn2+_complex",
+    "name": "ALAD:Zn2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29105",
+      "property1": "uniprot:P13716"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule_cell",
+    "name": "H2O_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BLVRB",
+    "name": "BLVRB",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P30043"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADP+_simple_molecule",
+    "name": "NADP+_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18009"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe2+_ion_default_compartment",
+    "name": "Fe2+_ion_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29033"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC11A2",
+    "name": "SLC11A2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P49281"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe2+_ion_cell",
+    "name": "Fe2+_ion_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29033"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe2+_ion_endosome",
+    "name": "Fe2+_ion_endosome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29033"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MCOLN1",
+    "name": "MCOLN1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9GZU1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HMOX1_rna",
+    "name": "HMOX1_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:3162",
+      "property1": "ncbigene:3162"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HMOX1_cell",
+    "name": "HMOX1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P09601"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CO_simple_molecule",
+    "name": "CO_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17245"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Bilirubin_simple_molecule_cell",
+    "name": "Bilirubin_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16990"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BLVRB_rna",
+    "name": "BLVRB_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:645",
+      "property1": "ncbigene:645"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ABCC1",
+    "name": "ABCC1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P02768"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ORF9c",
+    "name": "ORF9c",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NRF2_phosphorylated_cell",
+    "name": "NRF2_phosphorylated_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q16236"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "miRNA-155_rna",
+    "name": "miRNA-155_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:406947"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FECH_rna",
+    "name": "FECH_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:2235",
+      "property1": "ncbigene:2235"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRIN9_simple_molecule_mitochondrion",
+    "name": "PRIN9_simple_molecule_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15430"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_mitochondrial matrix",
+    "name": "H+_ion_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SUCC-CoA_simple_molecule",
+    "name": "SUCC-CoA_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57292"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Gly_simple_molecule",
+    "name": "Gly_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57305"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ALAS1:ALAS2_complex",
+    "name": "ALAS1:ALAS2_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P13196",
+      "property1": "uniprot:P22557"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Panhematin_drug",
+    "name": "Panhematin_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:50385"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dALA_simple_molecule_mitochondrial matrix",
+    "name": "dALA_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:356416"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CO2_simple_molecule_mitochondrial matrix",
+    "name": "CO2_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16526"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CoA-SH_simple_molecule",
+    "name": "CoA-SH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15346"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PBG_simple_molecule",
+    "name": "PBG_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:58126"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_cell",
+    "name": "H+_ion_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HMBS:DIPY_complex",
+    "name": "HMBS:DIPY_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:36319",
+      "property1": "uniprot:P08397"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HMBL_simple_molecule",
+    "name": "HMBL_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57845"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NH4+_ion",
+    "name": "NH4+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28938"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UROS",
+    "name": "UROS",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P10746"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "URO3_simple_molecule",
+    "name": "URO3_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15437"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UROD",
+    "name": "UROD",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P06132"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPRO3_simple_molecule_cell",
+    "name": "COPRO3_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15439"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPRO3_simple_molecule_mitochondrion",
+    "name": "COPRO3_simple_molecule_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15439"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O2_simple_molecule_mitochondrion",
+    "name": "O2_simple_molecule_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15379"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CPOX",
+    "name": "CPOX",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P36551"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPGEN9_simple_molecule",
+    "name": "PPGEN9_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15435"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPO:FAD_complex",
+    "name": "PPO:FAD_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16238",
+      "property1": "uniprot:P50336"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CO2_simple_molecule_mitochondrion",
+    "name": "CO2_simple_molecule_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16526"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O2_simple_molecule",
+    "name": "H2O2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16240"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Lipid Peroxide_simple_molecule",
+    "name": "Lipid Peroxide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:61051"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ferroptosis_phenotype",
+    "name": "Ferroptosis_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0097707"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Poly-unsaturated fatty acid_simple_molecule",
+    "name": "Poly-unsaturated fatty acid_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:26208"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Reactive Oxygen Species_simple_molecule",
+    "name": "Reactive Oxygen Species_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:26523"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC40A1:HEPH:Cu2+_complex",
+    "name": "SLC40A1:HEPH:Cu2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28694",
+      "property1": "uniprot:Q9BQS7",
+      "property2": "uniprot:Q9NP59"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "e-_ion_default_compartment",
+    "name": "e-_ion_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:10545"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CYBRD1:Heme_complex",
+    "name": "CYBRD1:Heme_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30413",
+      "property1": "uniprot:Q53TN4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O2_simple_molecule_default_compartment",
+    "name": "O2_simple_molecule_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15379"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_default_compartment",
+    "name": "H+_ion_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe(3+)O(OH)_simple_molecule",
+    "name": "Fe(3+)O(OH)_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:78619"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule_default_compartment",
+    "name": "H2O_simple_molecule_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GPX4",
+    "name": "GPX4",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P36969"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Lipid alcohol_simple_molecule",
+    "name": "Lipid alcohol_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:24026"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ORF3a",
+    "name": "ORF3a",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "taxonomy:2697049",
+      "property1": "uniprot:P0DTC3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PKC",
+    "name": "PKC",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CK2",
+    "name": "CK2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FLVCR1-1",
+    "name": "FLVCR1-1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9Y5Y0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_simple_molecule",
+    "name": "ATP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30616"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ABCG2",
+    "name": "ABCG2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9UNQ0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Heme_simple_molecule_default_compartment",
+    "name": "Heme_simple_molecule_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30413"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP_simple_molecule",
+    "name": "ADP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:456216"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pi_simple_molecule",
+    "name": "Pi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18367"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe3+_ion_endosome",
+    "name": "Fe3+_ion_endosome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29034"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "e-_ion_endosome",
+    "name": "e-_ion_endosome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:10545"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STEAP3",
+    "name": "STEAP3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q658P3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NRF2_ubiquitinated",
+    "name": "NRF2_ubiquitinated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3_rna",
+    "name": "NLRP3_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:114548",
+      "property1": "ncbigene:114548"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nf-KB Complex_complex",
+    "name": "Nf-KB Complex_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P19838",
+      "property1": "uniprot:Q00653",
+      "property2": "uniprot:Q04206"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "proIL-1B_cell",
+    "name": "proIL-1B_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P01584"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "proIL-18_cell",
+    "name": "proIL-18_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14116"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL-1B_cell",
+    "name": "IL-1B_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P01584"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL-18_cell",
+    "name": "IL-18_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14116"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL-1B_default_compartment",
+    "name": "IL-1B_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P01584"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL-18_default_compartment",
+    "name": "IL-18_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14116"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SARS E",
+    "name": "SARS E",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P59637"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PAMPs_phenotype",
+    "name": "PAMPs_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0002221"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DAMPs_phenotype",
+    "name": "DAMPs_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0002221"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SARS Orf3a",
+    "name": "SARS Orf3a",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P59632"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3 Elicitor Small Molecules_simple_molecule",
+    "name": "NLRP3 Elicitor Small Molecules_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16336",
+      "property1": "CHEBI:30563",
+      "property2": "CHEBI:46661"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3 Elicitor Proteins",
+    "name": "NLRP3 Elicitor Proteins",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P05067",
+      "property1": "uniprot:P09616"
+     }
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "NRF2_phosphorylated_nucleus",
+    "target": "Nrf2/Maf_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "MAF",
+    "target": "Nrf2/Maf_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "MAF",
+    "target": "BACH1/Maf_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "BACH1",
+    "target": "BACH1/Maf_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "Ubiquitin Ligase Complex_complex_cell",
+    "target": "Ubiquitin Ligase Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "E2_ubiquitinated",
+    "target": "Ubiquitin Ligase Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "Ubiquitin Ligase Complex_complex_cell",
+    "target": "Ubiquitin Ligase Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "NRF2_empty",
+    "target": "NRF2:KEAP1_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "KEAP1",
+    "target": "NRF2:KEAP1_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "Dimethly fumarate_drug",
+    "target": "NRF2:KEAP1_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "CUL3:RBX1_complex",
+    "target": "Neddylated CUL3:RBX1_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "SLC40A1_rna",
+    "target": "SLC40A1:CP:Cu2+_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "CAND1",
+    "target": "Ubiquitin Ligase Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "Neddylated CUL3:RBX1_complex",
+    "target": "Ubiquitin Ligase Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "NRF2:KEAP1_complex",
+    "target": "Ubiquitin Ligase Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "Fe3+_ion_default_compartment",
+    "target": "holoTF_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "Transferrin",
+    "target": "holoTF_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "TFRC",
+    "target": "TFRC:holoTF_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "holoTF_complex",
+    "target": "TFRC:holoTF_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "TFRC:holoTF_complex_cell",
+    "target": "TFRC:holoTF_complex_endosome",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "TFRC:holoTF_complex_endosome",
+    "target": "TFRC:TF_complex_endosome",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "TFRC:TF_complex_endosome",
+    "target": "TFRC:TF_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "NLRP3_cell",
+    "target": "TXNIP:NLRP3_complex",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "TXNIP",
+    "target": "TXNIP:NLRP3_complex",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "NLRP3_cell",
+    "target": "NLRP3:SUGT1:HSP90_complex",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "SUGT1:HSP90AB1_complex",
+    "target": "NLRP3:SUGT1:HSP90_complex",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "NLRP3:SUGT1:HSP90_complex",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "BLVRA_rna",
+    "target": "BLVRA:Zn2+_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "TXNIP",
+    "target": "Thioredoxin:TXNIP_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "TXN_cell",
+    "target": "Thioredoxin:TXNIP_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "PSTPIP1",
+    "target": "PSTPIP1 trimer:Pyrin trimer_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "Pyrin trimer_complex",
+    "target": "PSTPIP1 trimer:Pyrin trimer_complex",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "ASC",
+    "target": "NLRP3 oligomer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "NLRP3_cell_active",
+    "target": "NLRP3 oligomer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "target": "NLRP3 oligomer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "CTSG",
+    "target": "NLRP3 oligomer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "ASC",
+    "target": "Pyrin trimer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "Pyrin trimer_complex",
+    "target": "Pyrin trimer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "NLRP3 oligomer:ASC_complex",
+    "target": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "CASP1_cell",
+    "target": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "FTH1_rna",
+    "target": "Ferritin_complex",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "FTL_rna",
+    "target": "Ferritin_complex",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "Bilirubin_simple_molecule_default_compartment",
+    "target": "ALB/BIL_complex",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "ALB",
+    "target": "ALB/BIL_complex",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "CASP1(120-197):CASP1(317-404)_complex",
+    "target": "Caspase-1 Tetramer_complex",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "CASP1_cell",
+    "target": "CASP1(120-197):CASP1(317-404)_complex",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "Heme_simple_molecule_mitochondrial matrix",
+    "target": "Heme_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "FLVCR1-2",
+    "target": "Heme_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "NADPH_simple_molecule",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "O2_simple_molecule_cell",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "Heme_simple_molecule_cell",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "HMOX1_cell_active",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "FECH",
+    "target": "Heme_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "Fe2+_ion_mitochondrial matrix",
+    "target": "Heme_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "Pb2+_ion",
+    "target": "Heme_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "PRIN9_simple_molecule_mitochondrial matrix",
+    "target": "Heme_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "dALA_simple_molecule_cell",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "Heme_simple_molecule_cell",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "O2_simple_molecule_cell",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "NADPH_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "HMOX1_cell_active",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "ALAD:Zn2+_complex",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "Biliverdin_simple_molecule",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "BLVRA:Zn2+_complex",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "Heme_simple_molecule_cell",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "O2_simple_molecule_cell",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "NADPH_simple_molecule",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "BLVRB",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "HMOX1_cell_active",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "SLC11A2",
+    "target": "Fe2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "Heme_simple_molecule_cell",
+    "target": "Fe2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "Fe2+_ion_default_compartment",
+    "target": "Fe2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "O2_simple_molecule_cell",
+    "target": "Fe2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "Fe2+_ion_endosome",
+    "target": "Fe2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "NADPH_simple_molecule",
+    "target": "Fe2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "MCOLN1",
+    "target": "Fe2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "HMOX1_cell_active",
+    "target": "Fe2+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "HMOX1_rna",
+    "target": "HMOX1_cell",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "NADPH_simple_molecule",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "O2_simple_molecule_cell",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "Heme_simple_molecule_cell",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "HMOX1_cell_active",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "Biliverdin_simple_molecule",
+    "target": "Bilirubin_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "NADPH_simple_molecule",
+    "target": "Bilirubin_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "BLVRB",
+    "target": "Bilirubin_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "BLVRA:Zn2+_complex",
+    "target": "Bilirubin_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "BLVRB_rna",
+    "target": "BLVRB",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "Bilirubin_simple_molecule_cell",
+    "target": "Bilirubin_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "ABCC1",
+    "target": "Bilirubin_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "ORF9c",
+    "target": "ABCC1",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "NRF2_phosphorylated_cell",
+    "target": "NRF2_phosphorylated_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "miRNA-155_rna",
+    "target": "miRNA-155_rna",
+    "sign": false
+   },
+   {
+    "id": "t93",
+    "source": "BACH1/Maf_complex",
+    "target": "HMOX1_rna",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "Nrf2/Maf_complex",
+    "target": "HMOX1_rna",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "FECH_rna",
+    "target": "FECH",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "PRIN9_simple_molecule_mitochondrion",
+    "target": "PRIN9_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "FECH",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "Fe2+_ion_mitochondrial matrix",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "Pb2+_ion",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "PRIN9_simple_molecule_mitochondrial matrix",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "Panhematin_drug",
+    "target": "dALA_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "Heme_simple_molecule_mitochondrial matrix",
+    "target": "dALA_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "dALA_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "Gly_simple_molecule",
+    "target": "dALA_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "ALAS1:ALAS2_complex",
+    "target": "dALA_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "SUCC-CoA_simple_molecule",
+    "target": "dALA_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "Panhematin_drug",
+    "target": "CO2_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "Heme_simple_molecule_mitochondrial matrix",
+    "target": "CO2_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "CO2_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "Gly_simple_molecule",
+    "target": "CO2_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "ALAS1:ALAS2_complex",
+    "target": "CO2_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "SUCC-CoA_simple_molecule",
+    "target": "CO2_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "Panhematin_drug",
+    "target": "CoA-SH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "Heme_simple_molecule_mitochondrial matrix",
+    "target": "CoA-SH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "H+_ion_mitochondrial matrix",
+    "target": "CoA-SH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "Gly_simple_molecule",
+    "target": "CoA-SH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "ALAS1:ALAS2_complex",
+    "target": "CoA-SH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "SUCC-CoA_simple_molecule",
+    "target": "CoA-SH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "dALA_simple_molecule_mitochondrial matrix",
+    "target": "dALA_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "ALAD:Zn2+_complex",
+    "target": "PBG_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "dALA_simple_molecule_cell",
+    "target": "PBG_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "ALAD:Zn2+_complex",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "dALA_simple_molecule_cell",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "HMBS:DIPY_complex",
+    "target": "HMBL_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "H2O_simple_molecule_cell",
+    "target": "HMBL_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "PBG_simple_molecule",
+    "target": "HMBL_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "HMBS:DIPY_complex",
+    "target": "NH4+_ion",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "H2O_simple_molecule_cell",
+    "target": "NH4+_ion",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "PBG_simple_molecule",
+    "target": "NH4+_ion",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "HMBL_simple_molecule",
+    "target": "URO3_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "UROS",
+    "target": "URO3_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t132",
+    "source": "UROD",
+    "target": "COPRO3_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "URO3_simple_molecule",
+    "target": "COPRO3_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "COPRO3_simple_molecule_cell",
+    "target": "COPRO3_simple_molecule_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "CPOX",
+    "target": "PPGEN9_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "COPRO3_simple_molecule_mitochondrion",
+    "target": "PPGEN9_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "O2_simple_molecule_mitochondrion",
+    "target": "PPGEN9_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "PPO:FAD_complex",
+    "target": "PRIN9_simple_molecule_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "PPGEN9_simple_molecule",
+    "target": "PRIN9_simple_molecule_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "O2_simple_molecule_mitochondrion",
+    "target": "PRIN9_simple_molecule_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "CPOX",
+    "target": "CO2_simple_molecule_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t142",
+    "source": "COPRO3_simple_molecule_mitochondrion",
+    "target": "CO2_simple_molecule_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "O2_simple_molecule_mitochondrion",
+    "target": "CO2_simple_molecule_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "CPOX",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "PPO:FAD_complex",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "PPGEN9_simple_molecule",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "COPRO3_simple_molecule_mitochondrion",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "O2_simple_molecule_mitochondrion",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "Lipid Peroxide_simple_molecule",
+    "target": "Ferroptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "Reactive Oxygen Species_simple_molecule",
+    "target": "Lipid Peroxide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t151",
+    "source": "Poly-unsaturated fatty acid_simple_molecule",
+    "target": "Lipid Peroxide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "e-_ion_default_compartment",
+    "target": "Fe2+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "Fe2+_ion_cell",
+    "target": "Fe2+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "SLC40A1:CP:Cu2+_complex",
+    "target": "Fe2+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "SLC40A1:HEPH:Cu2+_complex",
+    "target": "Fe2+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "CYBRD1:Heme_complex",
+    "target": "Fe2+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t157",
+    "source": "Fe3+_ion_default_compartment",
+    "target": "Fe2+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t158",
+    "source": "O2_simple_molecule_default_compartment",
+    "target": "Fe3+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t159",
+    "source": "Fe2+_ion_default_compartment",
+    "target": "Fe3+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t160",
+    "source": "SLC40A1:CP:Cu2+_complex",
+    "target": "Fe3+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t161",
+    "source": "SLC40A1:HEPH:Cu2+_complex",
+    "target": "Fe3+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t162",
+    "source": "H+_ion_default_compartment",
+    "target": "Fe3+_ion_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t163",
+    "source": "NRF2_phosphorylated_nucleus",
+    "target": "SLC40A1_rna",
+    "sign": true
+   },
+   {
+    "id": "t164",
+    "source": "NRF2_phosphorylated_nucleus",
+    "target": "FTH1_rna",
+    "sign": true
+   },
+   {
+    "id": "t165",
+    "source": "NRF2_phosphorylated_nucleus",
+    "target": "FTL_rna",
+    "sign": true
+   },
+   {
+    "id": "t166",
+    "source": "NRF2_phosphorylated_nucleus",
+    "target": "FECH_rna",
+    "sign": true
+   },
+   {
+    "id": "t167",
+    "source": "NRF2_phosphorylated_nucleus",
+    "target": "BLVRA_rna",
+    "sign": true
+   },
+   {
+    "id": "t168",
+    "source": "NRF2_phosphorylated_nucleus",
+    "target": "BLVRB_rna",
+    "sign": true
+   },
+   {
+    "id": "t169",
+    "source": "Fe2+_ion_cell",
+    "target": "Fe(3+)O(OH)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t170",
+    "source": "Ferritin_complex",
+    "target": "Fe(3+)O(OH)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t171",
+    "source": "O2_simple_molecule_cell",
+    "target": "Fe(3+)O(OH)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t172",
+    "source": "H+_ion_cell",
+    "target": "Fe(3+)O(OH)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t173",
+    "source": "O2_simple_molecule_default_compartment",
+    "target": "H2O_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t174",
+    "source": "Fe2+_ion_default_compartment",
+    "target": "H2O_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t175",
+    "source": "SLC40A1:CP:Cu2+_complex",
+    "target": "H2O_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t176",
+    "source": "SLC40A1:HEPH:Cu2+_complex",
+    "target": "H2O_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t177",
+    "source": "H+_ion_default_compartment",
+    "target": "H2O_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t178",
+    "source": "Fe2+_ion_cell",
+    "target": "Reactive Oxygen Species_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t179",
+    "source": "CO_simple_molecule",
+    "target": "Reactive Oxygen Species_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t180",
+    "source": "Lipid Peroxide_simple_molecule",
+    "target": "Lipid alcohol_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t181",
+    "source": "GPX4",
+    "target": "Lipid alcohol_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t182",
+    "source": "ORF3a",
+    "target": "HMOX1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t183",
+    "source": "HMOX1_cell",
+    "target": "HMOX1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t184",
+    "source": "NRF2_empty",
+    "target": "NRF2_phosphorylated_cell",
+    "sign": true
+   },
+   {
+    "id": "t185",
+    "source": "CK2",
+    "target": "NRF2_phosphorylated_cell",
+    "sign": true
+   },
+   {
+    "id": "t186",
+    "source": "PKC",
+    "target": "NRF2_phosphorylated_cell",
+    "sign": true
+   },
+   {
+    "id": "t187",
+    "source": "ATP_simple_molecule",
+    "target": "Heme_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t188",
+    "source": "Heme_simple_molecule_cell",
+    "target": "Heme_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t189",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Heme_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t190",
+    "source": "FLVCR1-1",
+    "target": "Heme_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t191",
+    "source": "ABCG2",
+    "target": "Heme_simple_molecule_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t192",
+    "source": "ABCG2",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t193",
+    "source": "ATP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t194",
+    "source": "H2O_simple_molecule_cell",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t195",
+    "source": "Heme_simple_molecule_cell",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t196",
+    "source": "ABCG2",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t197",
+    "source": "ATP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t198",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t199",
+    "source": "Heme_simple_molecule_cell",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t200",
+    "source": "TFRC:TF_complex_cell",
+    "target": "Transferrin",
+    "sign": true
+   },
+   {
+    "id": "t201",
+    "source": "TFRC:TF_complex_cell",
+    "target": "TFRC",
+    "sign": true
+   },
+   {
+    "id": "t202",
+    "source": "TFRC:holoTF_complex_endosome",
+    "target": "Fe3+_ion_endosome",
+    "sign": true
+   },
+   {
+    "id": "t203",
+    "source": "e-_ion_endosome",
+    "target": "Fe2+_ion_endosome",
+    "sign": true
+   },
+   {
+    "id": "t204",
+    "source": "STEAP3",
+    "target": "Fe2+_ion_endosome",
+    "sign": true
+   },
+   {
+    "id": "t205",
+    "source": "Fe3+_ion_endosome",
+    "target": "Fe2+_ion_endosome",
+    "sign": true
+   },
+   {
+    "id": "t206",
+    "source": "Ubiquitin Ligase Complex_complex_cell",
+    "target": "NRF2_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t207",
+    "source": "NLRP3_rna",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t208",
+    "source": "NLRP3:SUGT1:HSP90_complex",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t209",
+    "source": "Thioredoxin:TXNIP_complex",
+    "target": "TXNIP",
+    "sign": true
+   },
+   {
+    "id": "t210",
+    "source": "Reactive Oxygen Species_simple_molecule",
+    "target": "TXNIP",
+    "sign": true
+   },
+   {
+    "id": "t211",
+    "source": "Thioredoxin:TXNIP_complex",
+    "target": "TXN_cell",
+    "sign": true
+   },
+   {
+    "id": "t212",
+    "source": "Reactive Oxygen Species_simple_molecule",
+    "target": "TXN_cell",
+    "sign": true
+   },
+   {
+    "id": "t213",
+    "source": "Nf-KB Complex_complex",
+    "target": "NLRP3_rna",
+    "sign": true
+   },
+   {
+    "id": "t214",
+    "source": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t215",
+    "source": "CTSG",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t216",
+    "source": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t217",
+    "source": "CTSG",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t218",
+    "source": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t219",
+    "source": "CTSG",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t220",
+    "source": "NLRP3 oligomer:ASC:Caspase1_complex",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t221",
+    "source": "CTSG",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t222",
+    "source": "Caspase-1 Tetramer_complex",
+    "target": "proIL-1B_cell",
+    "sign": true
+   },
+   {
+    "id": "t223",
+    "source": "Caspase-1 Tetramer_complex",
+    "target": "proIL-18_cell",
+    "sign": true
+   },
+   {
+    "id": "t224",
+    "source": "Caspase-1 Tetramer_complex",
+    "target": "IL-1B_cell",
+    "sign": true
+   },
+   {
+    "id": "t225",
+    "source": "proIL-1B_cell",
+    "target": "IL-1B_cell",
+    "sign": true
+   },
+   {
+    "id": "t226",
+    "source": "proIL-18_cell",
+    "target": "IL-18_cell",
+    "sign": true
+   },
+   {
+    "id": "t227",
+    "source": "Caspase-1 Tetramer_complex",
+    "target": "IL-18_cell",
+    "sign": true
+   },
+   {
+    "id": "t228",
+    "source": "IL-1B_cell",
+    "target": "IL-1B_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t229",
+    "source": "IL-18_cell",
+    "target": "IL-18_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t230",
+    "source": "NLRP3 Elicitor Proteins",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t231",
+    "source": "DAMPs_phenotype",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t232",
+    "source": "PAMPs_phenotype",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t233",
+    "source": "Reactive Oxygen Species_simple_molecule",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t234",
+    "source": "NLRP3 Elicitor Small Molecules_simple_molecule",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t235",
+    "source": "SARS E",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t236",
+    "source": "NLRP3_cell",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t237",
+    "source": "TXNIP:NLRP3_complex",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t238",
+    "source": "SARS Orf3a",
+    "target": "NLRP3_cell_active",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/IFN-lambda.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/IFN-lambda.json
new file mode 100644
index 000000000..41a0b06c5
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/IFN-lambda.json
@@ -0,0 +1,728 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "receptor complex_complex_cell",
+    "name": "receptor complex_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "Ifn lambda_complex",
+    "name": "Ifn lambda_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ISGF3 precursor_complex",
+    "name": "ISGF3 precursor_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF9",
+    "name": "IRF9",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ISGF3_complex",
+    "name": "ISGF3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SOCS3",
+    "name": "SOCS3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STAT3",
+    "name": "STAT3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Inhibited ISGF3 precursor_complex",
+    "name": "Inhibited ISGF3 precursor_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF3_phosphorylated",
+    "name": "IRF3_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "p38-NFkB_complex",
+    "name": "p38-NFkB_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ribosomal 40S subunit_complex",
+    "name": "ribosomal 40S subunit_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp1",
+    "name": "Nsp1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "inhibited ribosomal 40S SU_complex",
+    "name": "inhibited ribosomal 40S SU_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "80S ribosome_complex",
+    "name": "80S ribosome_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "inhibited 80S ribosome_complex",
+    "name": "inhibited 80S ribosome_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIG-I-mitoMAVS_complex",
+    "name": "RIG-I-mitoMAVS_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKK-TBK1_complex",
+    "name": "IKK-TBK1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIG-I-MAVS_complex_mitochondrion",
+    "name": "RIG-I-MAVS_complex_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIG-I:dsRNA_complex_mitochondrion",
+    "name": "RIG-I:dsRNA_complex_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAVS",
+    "name": "MAVS",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STAT1_phosphorylated",
+    "name": "STAT1_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STAT2_phosphorylated",
+    "name": "STAT2_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dsRNA_rna",
+    "name": "dsRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIG-I-MAVS_complex_peroxisome",
+    "name": "RIG-I-MAVS_complex_peroxisome",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ribosomal 60S subunit_complex",
+    "name": "ribosomal 60S subunit_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M",
+    "name": "M",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIG-I",
+    "name": "RIG-I",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIG-1 M-Protein_complex",
+    "name": "RIG-1 M-Protein_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PLPro",
+    "name": "PLPro",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Riplet:TRIM25_complex",
+    "name": "Riplet:TRIM25_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ISGs_rna",
+    "name": "ISGs_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNs_complex",
+    "name": "IFNs_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SOCS1",
+    "name": "SOCS1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "antiviral proteins_complex",
+    "name": "antiviral proteins_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFN-III",
+    "name": "IFN-III",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFN-sensitive-response-element_gene",
+    "name": "IFN-sensitive-response-element_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "viral RNA_rna",
+    "name": "viral RNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp14",
+    "name": "nsp14",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "viral RNA+N-methyl-Guanine_rna",
+    "name": "viral RNA+N-methyl-Guanine_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp16",
+    "name": "nsp16",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "5'cap-viral-RNA_rna",
+    "name": "5'cap-viral-RNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dsRNA_vesicle_rna",
+    "name": "dsRNA_vesicle_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RNA_rna",
+    "name": "RNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF1_phosphorylated",
+    "name": "IRF1_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFN-III_rna",
+    "name": "IFN-III_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "Ifn lambda_complex",
+    "target": "receptor complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "ISGF3 precursor_complex",
+    "target": "ISGF3_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "IRF9",
+    "target": "ISGF3_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "SOCS3",
+    "target": "receptor complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "ISGF3 precursor_complex",
+    "target": "Inhibited ISGF3 precursor_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "STAT3",
+    "target": "Inhibited ISGF3 precursor_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "IRF3_phosphorylated",
+    "target": "p38-NFkB_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "ribosomal 40S subunit_complex",
+    "target": "inhibited ribosomal 40S SU_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "Nsp1",
+    "target": "inhibited ribosomal 40S SU_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "80S ribosome_complex",
+    "target": "inhibited 80S ribosome_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "Nsp1",
+    "target": "inhibited 80S ribosome_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "IKK-TBK1_complex",
+    "target": "RIG-I-MAVS_complex_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "RIG-I-mitoMAVS_complex",
+    "target": "RIG-I-MAVS_complex_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "RIG-I:dsRNA_complex_mitochondrion",
+    "target": "RIG-I-mitoMAVS_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "MAVS",
+    "target": "RIG-I-mitoMAVS_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "STAT2_phosphorylated",
+    "target": "ISGF3 precursor_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "STAT1_phosphorylated",
+    "target": "ISGF3 precursor_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "dsRNA_rna",
+    "target": "RIG-I-MAVS_complex_peroxisome",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "ribosomal 40S subunit_complex",
+    "target": "80S ribosome_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "ribosomal 60S subunit_complex",
+    "target": "80S ribosome_complex",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "RIG-I",
+    "target": "RIG-1 M-Protein_complex",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "M",
+    "target": "RIG-1 M-Protein_complex",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "RIG-I",
+    "target": "RIG-I:dsRNA_complex_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "PLPro",
+    "target": "RIG-I:dsRNA_complex_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "dsRNA_rna",
+    "target": "RIG-I:dsRNA_complex_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "Riplet:TRIM25_complex",
+    "target": "RIG-I:dsRNA_complex_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "80S ribosome_complex",
+    "target": "IFNs_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "ISGs_rna",
+    "target": "IFNs_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "SOCS1",
+    "target": "receptor complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "80S ribosome_complex",
+    "target": "antiviral proteins_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "ISGs_rna",
+    "target": "antiviral proteins_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "IFN-III",
+    "target": "Ifn lambda_complex",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "receptor complex_complex_cell",
+    "target": "Ifn lambda_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "receptor complex_complex_cell",
+    "target": "STAT1_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "receptor complex_complex_cell",
+    "target": "STAT2_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "ISGF3_complex",
+    "target": "ISGs_rna",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "IFN-sensitive-response-element_gene",
+    "target": "ISGs_rna",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "nsp14",
+    "target": "viral RNA+N-methyl-Guanine_rna",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "viral RNA_rna",
+    "target": "viral RNA+N-methyl-Guanine_rna",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "viral RNA+N-methyl-Guanine_rna",
+    "target": "5'cap-viral-RNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "nsp16",
+    "target": "5'cap-viral-RNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "RNA_rna",
+    "target": "dsRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "dsRNA_vesicle_rna",
+    "target": "dsRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "RIG-I-MAVS_complex_mitochondrion",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "RIG-I-MAVS_complex_peroxisome",
+    "target": "IRF1_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "IRF1_phosphorylated",
+    "target": "IFN-III_rna",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "p38-NFkB_complex",
+    "target": "IFN-III_rna",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "IFN-III_rna",
+    "target": "IFN-III",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "dsRNA_rna",
+    "target": "dsRNA_vesicle_rna",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Interferon1.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Interferon1.json
new file mode 100644
index 000000000..337e373b3
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Interferon1.json
@@ -0,0 +1,2379 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "IFNAR_complex",
+    "name": "IFNAR_complex",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNA1_extracellular space",
+    "name": "IFNA1_extracellular space",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNA1_extracellular space",
+    "name": "IFNA1_extracellular space",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNA1_IFNAR_complex",
+    "name": "IFNA1_IFNAR_complex",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRAK1/4",
+    "name": "IRAK1/4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIF",
+    "name": "TRIF",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR4_TRIF_TRAM_complex",
+    "name": "TLR4_TRIF_TRAM_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_extracellular space",
+    "name": "IFNB1_extracellular space",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_extracellular space",
+    "name": "IFNB1_extracellular space",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_IFNAR_complex",
+    "name": "IFNB1_IFNAR_complex",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STAT1_phosphorylated",
+    "name": "STAT1_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF9",
+    "name": "IRF9",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STAT2_phosphorylated",
+    "name": "STAT2_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TREML4",
+    "name": "TREML4",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "JAK1_TYK2_complex",
+    "name": "JAK1_TYK2_complex",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6",
+    "name": "Orf6",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp5",
+    "name": "Nsp5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STAT1/2_IRF9_complex",
+    "name": "STAT1/2_IRF9_complex",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ISRE_complex",
+    "name": "ISRE_complex",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "JAK1",
+    "name": "JAK1",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TYK2",
+    "name": "TYK2",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "JUN",
+    "name": "JUN",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FOS",
+    "name": "FOS",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E",
+    "name": "E",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK8/14_complex",
+    "name": "MAPK8/14_complex",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP-1_complex_cell",
+    "name": "AP-1_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IkB_p50_p65_complex_cell",
+    "name": "IkB_p50_p65_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "p50_p65_complex_cell",
+    "name": "p50_p65_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS1_cell_active",
+    "name": "OAS1_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS3_cell_active",
+    "name": "OAS3_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2AK",
+    "name": "EIF2AK",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS2_cell_active",
+    "name": "OAS2_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS1_EIF2AK_complex",
+    "name": "OAS1_EIF2AK_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TBK1",
+    "name": "TBK1",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKBKE",
+    "name": "IKBKE",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF3",
+    "name": "TRAF3",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAP1",
+    "name": "NAP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Azithromycin_drug",
+    "name": "Azithromycin_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp3",
+    "name": "Nsp3",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TBK1_IKBKE_complex",
+    "name": "TBK1_IKBKE_complex",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MYD88",
+    "name": "MYD88",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR7",
+    "name": "TLR7",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR9",
+    "name": "TLR9",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Viral dsRNA_rna_endosome",
+    "name": "Viral dsRNA_rna_endosome",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052324"
+     },
+     "context": {
+      "property": "taxonomy:694009"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MYD88_TRAM_complex",
+    "name": "MYD88_TRAM_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF3_TBK1_IKBKE_complex_cell_active",
+    "name": "TRAF3_TBK1_IKBKE_complex_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TANK",
+    "name": "TANK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR3_TRIF_complex",
+    "name": "TLR3_TRIF_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAVS",
+    "name": "MAVS",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052324"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M",
+    "name": "M",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "name": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1ab",
+    "name": "pp1ab",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24622840"
+     },
+     "context": {
+      "property": "ncbiprotein:YP_009724389"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF3_TBK1_IKBKE_complex_cell",
+    "name": "TRAF3_TBK1_IKBKE_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24622840"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STING1_ubiquitinated",
+    "name": "STING1_ubiquitinated",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24622840"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDX58_ubiquitinated",
+    "name": "DDX58_ubiquitinated",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052324"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFIH1",
+    "name": "IFIH1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052324"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Viral dsRNA_rna_cell",
+    "name": "Viral dsRNA_rna_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052324"
+     },
+     "context": {
+      "property": "taxonomy:694009"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N",
+    "name": "N",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp10",
+    "name": "Nsp10",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp14",
+    "name": "Nsp14",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp16",
+    "name": "Nsp16",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp15",
+    "name": "Nsp15",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {
+      "property": "ncbiprotein:YP_009725310"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIG1_MDA5_complex",
+    "name": "RIG1_MDA5_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052324"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "p50_p65_complex_nucleus",
+    "name": "p50_p65_complex_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MNS_drug",
+    "name": "MNS_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3_inflammasome_complex",
+    "name": "NLRP3_inflammasome_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK14",
+    "name": "MAPK14",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK8",
+    "name": "MAPK8",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP3K7",
+    "name": "MAP3K7",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP-1_complex_nucleus",
+    "name": "AP-1_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIP1",
+    "name": "RIP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR3_TRIF_RIPK1_complex",
+    "name": "TLR3_TRIF_RIPK1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAB1",
+    "name": "TAB1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAB2",
+    "name": "TAB2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF6_ubiquitinated",
+    "name": "TRAF6_ubiquitinated",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {
+      "property": "wikipathways:WP4868",
+      "property1": "wikipathways:WP4868"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAK1",
+    "name": "TAK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAB1/2_TRAF6_TAK1_complex",
+    "name": "TAB1/2_TRAF6_TAK1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEMO",
+    "name": "NEMO",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKKa",
+    "name": "IKKa",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKKb",
+    "name": "IKKb",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKKa_IKKb_NEMO_complex",
+    "name": "IKKa_IKKb_NEMO_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RELA",
+    "name": "RELA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKB1",
+    "name": "NFKB1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IkB",
+    "name": "IkB",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF3_homodimer_complex_cell",
+    "name": "IRF3_homodimer_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF3_homodimer_complex_nucleus",
+    "name": "IRF3_homodimer_complex_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF3_phosphorylated",
+    "name": "IRF3_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF7_phosphorylated",
+    "name": "IRF7_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF7_homodimer_complex",
+    "name": "IRF7_homodimer_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ISG15",
+    "name": "ISG15",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GRL0617_drug",
+    "name": "GRL0617_drug",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ISG15_Nsp3_complex",
+    "name": "ISG15_Nsp3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_rna",
+    "name": "IFNB1_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_cell",
+    "name": "IFNB1_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNA1_rna",
+    "name": "IFNA1_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNA1_cell",
+    "name": "IFNA1_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS1_rna",
+    "name": "OAS1_rna",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2AK_rna",
+    "name": "EIF2AK_rna",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS1_cell",
+    "name": "OAS1_cell",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ITCH",
+    "name": "ITCH",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp13",
+    "name": "Nsp13",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp1",
+    "name": "Nsp1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7b",
+    "name": "Orf7b",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a",
+    "name": "Orf3a",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32979938"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6",
+    "name": "Nsp6",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32979938"
+     },
+     "context": {
+      "property": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a",
+    "name": "Orf7a",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS2_rna",
+    "name": "OAS2_rna",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS2_cell",
+    "name": "OAS2_cell",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS3_rna",
+    "name": "OAS3_rna",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "OAS3_cell",
+    "name": "OAS3_cell",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ISG expression_antiviral response_phenotype",
+    "name": "ISG expression_antiviral response_phenotype",
+    "grounding": {
+     "identifiers": {
+      "wikipathways": "WP4868"
+     },
+     "context": {
+      "property": "mesh:D007113"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8_complex",
+    "name": "Orf8_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b",
+    "name": "Orf9b",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31226023"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM25",
+    "name": "TRIM25",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RNF135",
+    "name": "RNF135",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Viral replication_phenotype",
+    "name": "Viral replication_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19052324"
+     },
+     "context": {
+      "property": "mesh:D014779"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Proinflammatory cytokine expression_Inflammation_phenotype",
+    "name": "Proinflammatory cytokine expression_Inflammation_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "mesh:D007249"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "type I IFN response_phenotype",
+    "name": "type I IFN response_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IkB_phosphorylated",
+    "name": "IkB_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ISG15_rna",
+    "name": "ISG15_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "IFNA1_extracellular space",
+    "target": "IFNA1_IFNAR_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "IFNAR_complex",
+    "target": "IFNA1_IFNAR_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "IFNA1_extracellular space",
+    "target": "IFNA1_IFNAR_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "TRIF",
+    "target": "TLR4_TRIF_TRAM_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "IRAK1/4",
+    "target": "TLR4_TRIF_TRAM_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "IFNB1_extracellular space",
+    "target": "IFNB1_IFNAR_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "IFNAR_complex",
+    "target": "IFNB1_IFNAR_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "IFNB1_extracellular space",
+    "target": "IFNB1_IFNAR_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "IRF9",
+    "target": "STAT1/2_IRF9_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "STAT2_phosphorylated",
+    "target": "STAT1/2_IRF9_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "Orf6",
+    "target": "STAT1/2_IRF9_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "Nsp5",
+    "target": "STAT1/2_IRF9_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "JAK1_TYK2_complex",
+    "target": "STAT1/2_IRF9_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "TREML4",
+    "target": "STAT1/2_IRF9_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "STAT1_phosphorylated",
+    "target": "STAT1/2_IRF9_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "STAT1/2_IRF9_complex",
+    "target": "ISRE_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "Orf6",
+    "target": "ISRE_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "JAK1",
+    "target": "JAK1_TYK2_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "TYK2",
+    "target": "JAK1_TYK2_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "IFNB1_IFNAR_complex",
+    "target": "JAK1_TYK2_complex",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "IFNA1_IFNAR_complex",
+    "target": "JAK1_TYK2_complex",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "MAPK8/14_complex",
+    "target": "AP-1_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "FOS",
+    "target": "AP-1_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "JUN",
+    "target": "AP-1_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "E",
+    "target": "AP-1_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "IkB_p50_p65_complex_cell",
+    "target": "p50_p65_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "OAS1_cell_active",
+    "target": "OAS1_EIF2AK_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "EIF2AK",
+    "target": "OAS1_EIF2AK_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "OAS3_cell_active",
+    "target": "OAS1_EIF2AK_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "OAS2_cell_active",
+    "target": "OAS1_EIF2AK_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "Azithromycin_drug",
+    "target": "TBK1_IKBKE_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "TRAF3",
+    "target": "TBK1_IKBKE_complex",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "NAP1",
+    "target": "TBK1_IKBKE_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "IKBKE",
+    "target": "TBK1_IKBKE_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "TBK1",
+    "target": "TBK1_IKBKE_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "Nsp3",
+    "target": "TBK1_IKBKE_complex",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "TLR7",
+    "target": "MYD88_TRAM_complex",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "TLR9",
+    "target": "MYD88_TRAM_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "Viral dsRNA_rna_endosome",
+    "target": "MYD88_TRAM_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "MYD88",
+    "target": "MYD88_TRAM_complex",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "IRAK1/4",
+    "target": "MYD88_TRAM_complex",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "TREML4",
+    "target": "MYD88_TRAM_complex",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "TRAF3_TBK1_IKBKE_complex_cell_active",
+    "target": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "M",
+    "target": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "MAVS",
+    "target": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "TANK",
+    "target": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "TLR3_TRIF_complex",
+    "target": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "TBK1_IKBKE_complex",
+    "target": "TRAF3_TBK1_IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "pp1ab",
+    "target": "TRAF3_TBK1_IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "TRAF3",
+    "target": "TRAF3_TBK1_IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "pp1ab",
+    "target": "TRAF3_TBK1_IKBKE_complex_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "STING1_ubiquitinated",
+    "target": "TRAF3_TBK1_IKBKE_complex_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "TRAF3_TBK1_IKBKE_complex_cell",
+    "target": "TRAF3_TBK1_IKBKE_complex_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "Nsp16",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "M",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "Nsp14",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "DDX58_ubiquitinated",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "IFIH1",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "Nsp10",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "Viral dsRNA_rna_cell",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "Nsp15",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "N",
+    "target": "RIG1_MDA5_complex",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "MNS_drug",
+    "target": "NLRP3_inflammasome_complex",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "p50_p65_complex_nucleus",
+    "target": "NLRP3_inflammasome_complex",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "E",
+    "target": "NLRP3_inflammasome_complex",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "MAPK14",
+    "target": "MAPK8/14_complex",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "MAP3K7",
+    "target": "MAPK8/14_complex",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "TBK1",
+    "target": "MAPK8/14_complex",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "MAPK8",
+    "target": "MAPK8/14_complex",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "AP-1_complex_cell",
+    "target": "AP-1_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "p50_p65_complex_cell",
+    "target": "p50_p65_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "Viral dsRNA_rna_endosome",
+    "target": "TLR3_TRIF_complex",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "TRIF",
+    "target": "TLR3_TRIF_complex",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "Azithromycin_drug",
+    "target": "TLR3_TRIF_complex",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "RIP1",
+    "target": "TLR3_TRIF_RIPK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "TLR3_TRIF_complex",
+    "target": "TLR3_TRIF_RIPK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "TAB2",
+    "target": "TAB1/2_TRAF6_TAK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "TRAF6_ubiquitinated",
+    "target": "TAB1/2_TRAF6_TAK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "TLR3_TRIF_RIPK1_complex",
+    "target": "TAB1/2_TRAF6_TAK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "TAK1",
+    "target": "TAB1/2_TRAF6_TAK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "TAB1",
+    "target": "TAB1/2_TRAF6_TAK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "NEMO",
+    "target": "IKKa_IKKb_NEMO_complex",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "IKKa",
+    "target": "IKKa_IKKb_NEMO_complex",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "IKKb",
+    "target": "IKKa_IKKb_NEMO_complex",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "TAB1/2_TRAF6_TAK1_complex",
+    "target": "IKKa_IKKb_NEMO_complex",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "NFKB1",
+    "target": "IkB_p50_p65_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "IkB",
+    "target": "IkB_p50_p65_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "RELA",
+    "target": "IkB_p50_p65_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "IKKa_IKKb_NEMO_complex",
+    "target": "IkB_p50_p65_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "IRF3_homodimer_complex_cell",
+    "target": "IRF3_homodimer_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "Orf6",
+    "target": "IRF3_homodimer_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "IRF3_phosphorylated",
+    "target": "IRF3_homodimer_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "IRF7_phosphorylated",
+    "target": "IRF7_homodimer_complex",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "GRL0617_drug",
+    "target": "ISG15_Nsp3_complex",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "ISG15",
+    "target": "ISG15_Nsp3_complex",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "Nsp3",
+    "target": "ISG15_Nsp3_complex",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "IFNB1_rna",
+    "target": "IFNB1_cell",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "IFNB1_cell",
+    "target": "IFNB1_extracellular space",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "IFNA1_rna",
+    "target": "IFNA1_cell",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "IFNA1_cell",
+    "target": "IFNA1_extracellular space",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "IRF7_homodimer_complex",
+    "target": "IFNB1_rna",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "p50_p65_complex_nucleus",
+    "target": "IFNB1_rna",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "Azithromycin_drug",
+    "target": "IFNB1_rna",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "AP-1_complex_nucleus",
+    "target": "IFNB1_rna",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "IRF3_homodimer_complex_nucleus",
+    "target": "IFNB1_rna",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "AP-1_complex_nucleus",
+    "target": "IFNA1_rna",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "IRF7_homodimer_complex",
+    "target": "IFNA1_rna",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "p50_p65_complex_nucleus",
+    "target": "IFNA1_rna",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "IRF3_homodimer_complex_nucleus",
+    "target": "OAS1_rna",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "ISRE_complex",
+    "target": "OAS1_rna",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "IRF3_homodimer_complex_nucleus",
+    "target": "EIF2AK_rna",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "ISRE_complex",
+    "target": "EIF2AK_rna",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "OAS1_cell",
+    "target": "OAS1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "Nsp15",
+    "target": "OAS1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "EIF2AK_rna",
+    "target": "EIF2AK",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "Nsp15",
+    "target": "EIF2AK",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "ITCH",
+    "target": "TRAF6_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "MYD88_TRAM_complex",
+    "target": "TRAF6_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "Nsp3",
+    "target": "TRAF6_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "Nsp13",
+    "target": "TBK1",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "STING1_ubiquitinated",
+    "target": "TBK1",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "MAVS",
+    "target": "TBK1",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "IKBKE",
+    "target": "TBK1",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "M",
+    "target": "Nsp1",
+    "sign": false
+   },
+   {
+    "id": "t125",
+    "source": "Orf3a",
+    "target": "Nsp1",
+    "sign": false
+   },
+   {
+    "id": "t126",
+    "source": "Nsp6",
+    "target": "Nsp1",
+    "sign": false
+   },
+   {
+    "id": "t127",
+    "source": "Nsp13",
+    "target": "Nsp1",
+    "sign": false
+   },
+   {
+    "id": "t128",
+    "source": "Orf7b",
+    "target": "Nsp1",
+    "sign": false
+   },
+   {
+    "id": "t129",
+    "source": "Nsp13",
+    "target": "Orf7a",
+    "sign": false
+   },
+   {
+    "id": "t130",
+    "source": "Nsp6",
+    "target": "Orf7a",
+    "sign": false
+   },
+   {
+    "id": "t131",
+    "source": "Orf7b",
+    "target": "Orf7a",
+    "sign": false
+   },
+   {
+    "id": "t132",
+    "source": "IRF3_homodimer_complex_nucleus",
+    "target": "OAS2_rna",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "ISRE_complex",
+    "target": "OAS2_rna",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "OAS2_cell",
+    "target": "OAS2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "Nsp15",
+    "target": "OAS2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "IRF3_homodimer_complex_nucleus",
+    "target": "OAS3_rna",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "ISRE_complex",
+    "target": "OAS3_rna",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "OAS3_cell",
+    "target": "OAS3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "Nsp15",
+    "target": "OAS3_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "OAS1_EIF2AK_complex",
+    "target": "ISG expression_antiviral response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "ISG15",
+    "target": "ISG expression_antiviral response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t142",
+    "source": "p50_p65_complex_nucleus",
+    "target": "ISG expression_antiviral response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "Azithromycin_drug",
+    "target": "ISG expression_antiviral response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "Nsp3",
+    "target": "ISG expression_antiviral response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "MYD88_TRAM_complex",
+    "target": "TRAF3",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "Nsp3",
+    "target": "TRAF3",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "TRAF6_ubiquitinated",
+    "target": "MAP3K7",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "TBK1",
+    "target": "IKBKE",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "Nsp3",
+    "target": "IKBKE",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "Nsp6",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t151",
+    "source": "MAVS",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "Orf8_complex",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "Nsp3",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "Orf6",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "N",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t157",
+    "source": "Nsp15",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t158",
+    "source": "pp1ab",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t159",
+    "source": "ITCH",
+    "target": "MAVS",
+    "sign": true
+   },
+   {
+    "id": "t160",
+    "source": "Orf9b",
+    "target": "MAVS",
+    "sign": true
+   },
+   {
+    "id": "t161",
+    "source": "RIG1_MDA5_complex",
+    "target": "MAVS",
+    "sign": true
+   },
+   {
+    "id": "t162",
+    "source": "Nsp15",
+    "target": "IFIH1",
+    "sign": true
+   },
+   {
+    "id": "t163",
+    "source": "Azithromycin_drug",
+    "target": "IFIH1",
+    "sign": true
+   },
+   {
+    "id": "t164",
+    "source": "Azithromycin_drug",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t165",
+    "source": "RNF135",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t166",
+    "source": "Nsp5",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t167",
+    "source": "N",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t168",
+    "source": "TRIM25",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t169",
+    "source": "OAS3_rna",
+    "target": "OAS3_cell",
+    "sign": true
+   },
+   {
+    "id": "t170",
+    "source": "OAS2_rna",
+    "target": "OAS2_cell",
+    "sign": true
+   },
+   {
+    "id": "t171",
+    "source": "OAS1_rna",
+    "target": "OAS1_cell",
+    "sign": true
+   },
+   {
+    "id": "t172",
+    "source": "pp1ab",
+    "target": "STING1_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t173",
+    "source": "MAVS",
+    "target": "STING1_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t174",
+    "source": "IFNA1_extracellular space",
+    "target": "Viral dsRNA_rna_cell",
+    "sign": true
+   },
+   {
+    "id": "t175",
+    "source": "Viral replication_phenotype",
+    "target": "Viral dsRNA_rna_cell",
+    "sign": true
+   },
+   {
+    "id": "t176",
+    "source": "IFNB1_extracellular space",
+    "target": "Viral dsRNA_rna_cell",
+    "sign": true
+   },
+   {
+    "id": "t177",
+    "source": "NLRP3_inflammasome_complex",
+    "target": "Proinflammatory cytokine expression_Inflammation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t178",
+    "source": "p50_p65_complex_nucleus",
+    "target": "Proinflammatory cytokine expression_Inflammation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t179",
+    "source": "Orf9b",
+    "target": "ITCH",
+    "sign": true
+   },
+   {
+    "id": "t180",
+    "source": "TRAF3_TANK_TBK1_IKKepsilon_complex",
+    "target": "IRF7_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t181",
+    "source": "IFNA1_extracellular space",
+    "target": "type I IFN response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t182",
+    "source": "IFNB1_extracellular space",
+    "target": "type I IFN response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t183",
+    "source": "IkB_p50_p65_complex_cell",
+    "target": "IkB_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t184",
+    "source": "TLR4_TRIF_TRAM_complex",
+    "target": "NAP1",
+    "sign": true
+   },
+   {
+    "id": "t185",
+    "source": "ISRE_complex",
+    "target": "ISG15_rna",
+    "sign": true
+   },
+   {
+    "id": "t186",
+    "source": "ISG15_rna",
+    "target": "ISG15",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/JNK_pathway.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/JNK_pathway.json
new file mode 100644
index 000000000..a4e95e32d
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/JNK_pathway.json
@@ -0,0 +1,307 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "JNK_complex_cell",
+    "name": "JNK_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP2K4_phosphorylated",
+    "name": "MAP2K4_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP2K7_phosphorylated",
+    "name": "MAP2K7_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "7a",
+    "name": "7a",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "3a",
+    "name": "3a",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S",
+    "name": "S",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SARS-CoV-1 proteins_complex",
+    "name": "SARS-CoV-1 proteins_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MLK1/2/3_complex",
+    "name": "MLK1/2/3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "3b",
+    "name": "3b",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP-1_complex",
+    "name": "AP-1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MEKK1/4_complex",
+    "name": "MEKK1/4_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCL2_phosphorylated",
+    "name": "BCL2_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Innate Immunity_phenotype",
+    "name": "Innate Immunity_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0045087"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Autophagy_phenotype",
+    "name": "Autophagy_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0006914"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATF2_phosphorylated",
+    "name": "ATF2_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TP53_phosphorylated",
+    "name": "TP53_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TP53 signalling_phenotype",
+    "name": "TP53 signalling_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0072331"
+     }
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "MAP2K7_phosphorylated",
+    "target": "JNK_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "S",
+    "target": "JNK_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "7a",
+    "target": "JNK_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "MAP2K4_phosphorylated",
+    "target": "JNK_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "3a",
+    "target": "JNK_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "SARS-CoV-1 proteins_complex",
+    "target": "MLK1/2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "3b",
+    "target": "AP-1_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "JNK_complex_cell",
+    "target": "AP-1_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "SARS-CoV-1 proteins_complex",
+    "target": "MEKK1/4_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "SARS-CoV-1 proteins_complex",
+    "target": "MAP2K4_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "MEKK1/4_complex",
+    "target": "MAP2K4_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "SARS-CoV-1 proteins_complex",
+    "target": "MAP2K7_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "MLK1/2/3_complex",
+    "target": "MAP2K7_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "JNK_complex_cell",
+    "target": "BCL2_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "AP-1_complex",
+    "target": "Innate Immunity_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "BCL2_phosphorylated",
+    "target": "BCL2_phosphorylated",
+    "sign": false
+   },
+   {
+    "id": "t17",
+    "source": "BCL2_phosphorylated",
+    "target": "Autophagy_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "JNK_complex_cell",
+    "target": "ATF2_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "JNK_complex_cell",
+    "target": "TP53_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "TP53_phosphorylated",
+    "target": "TP53 signalling_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Kynurenine_pathway.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Kynurenine_pathway.json
new file mode 100644
index 000000000..635343c4f
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Kynurenine_pathway.json
@@ -0,0 +1,3469 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "L-Kynurenine_simple_molecule",
+    "name": "L-Kynurenine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16946"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AHR",
+    "name": "AHR",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P35869"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AHR/L-KYN_complex",
+    "name": "AHR/L-KYN_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CO_simple_molecule",
+    "name": "CO_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17245"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Heme_simple_molecule",
+    "name": "Heme_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30413"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "apo-IDO1",
+    "name": "apo-IDO1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P14902"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDO1_complex",
+    "name": "IDO1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P14902"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Tryptophan_simple_molecule_human host",
+    "name": "L-Tryptophan_simple_molecule_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57912"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC36A4",
+    "name": "SLC36A4",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q6YBV0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Tryptophan_simple_molecule_cell",
+    "name": "L-Tryptophan_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57912"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDO1_rna",
+    "name": "IDO1_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:3620",
+      "property1": "ncbigene:3620"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADPH_simple_molecule_cell",
+    "name": "NADPH_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16474"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_cell",
+    "name": "H+_ion_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O2_simple_molecule",
+    "name": "O2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15379"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "KMO",
+    "name": "KMO",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O15229"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP-DOBu_simple_molecule",
+    "name": "AP-DOBu_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17442"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACS_simple_molecule",
+    "name": "ACS_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29044"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "QUIN_simple_molecule",
+    "name": "QUIN_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16675"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRPP_simple_molecule",
+    "name": "PRPP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17111"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "QPRT",
+    "name": "QPRT",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q15274"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HMOX1_cell",
+    "name": "HMOX1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule_cell",
+    "name": "H2O_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDO2",
+    "name": "IDO2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q6ZQW0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Epacadostat_drug",
+    "name": "Epacadostat_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFK_simple_molecule",
+    "name": "NFK_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18377"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PYR_simple_molecule",
+    "name": "PYR_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15361"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PXLP-KYAT1_complex",
+    "name": "PXLP-KYAT1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18405",
+      "property1": "uniprot:Q16773"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "I3PROPA",
+    "name": "I3PROPA",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:43580"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Phe_simple_molecule",
+    "name": "L-Phe_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:58095"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "I3LACT",
+    "name": "I3LACT",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:55528"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AFMID",
+    "name": "AFMID",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q63HM1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HCOOH_simple_molecule",
+    "name": "HCOOH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30751"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAD+_simple_molecule_cell",
+    "name": "NAD+_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57540"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_simple_molecule_cell",
+    "name": "ATP_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30616"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADK:Zn2+ tetramer_complex",
+    "name": "NADK:Zn2+ tetramer_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29105",
+      "property1": "uniprot:O95544"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Arginine_simple_molecule",
+    "name": "L-Arginine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16467"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "iNOS",
+    "name": "iNOS",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P35228"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADP+_simple_molecule_cell",
+    "name": "NADP+_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18009"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "2AMA_simple_molecule",
+    "name": "2AMA_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15745"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAR_simple_molecule",
+    "name": "NAR_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:58527"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMRK1",
+    "name": "NMRK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9NWW6"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMRK2",
+    "name": "NMRK2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9NPI5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NR_simple_molecule",
+    "name": "NR_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15927"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "KYNA_simple_molecule",
+    "name": "KYNA_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18344"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CCBL2",
+    "name": "CCBL2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q6YP21"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "3HKYN_simple_molecule",
+    "name": "3HKYN_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17380"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "KYNU",
+    "name": "KYNU",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q16719"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Ala_simple_molecule",
+    "name": "L-Ala_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57972"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "3HAA_simple_molecule",
+    "name": "3HAA_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15793"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Regulatory T-cell generation_phenotype",
+    "name": "Regulatory T-cell generation_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0045066"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HAAO",
+    "name": "HAAO",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P46952"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACMSD",
+    "name": "ACMSD",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q8TDX5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CO2_simple_molecule",
+    "name": "CO2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16526"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADH_simple_molecule_cell",
+    "name": "NADH_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57945"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAAD_simple_molecule_cell",
+    "name": "NAAD_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18304"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Gln_simple_molecule",
+    "name": "L-Gln_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:58359"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADSYN1 hexamer",
+    "name": "NADSYN1 hexamer",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q6IA69"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMN_simple_molecule_cell",
+    "name": "NMN_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:14649"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMNAT2:Mg2+_complex",
+    "name": "NMNAT2:Mg2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18420",
+      "property1": "uniprot:Q9BZQ4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "2AM_simple_molecule",
+    "name": "2AM_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16886"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFN-G",
+    "name": "IFN-G",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14609"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nf-KB Complex_complex",
+    "name": "Nf-KB Complex_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P19838",
+      "property1": "uniprot:Q00653",
+      "property2": "uniprot:Q04206"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "iNOS_rna",
+    "name": "iNOS_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:4348",
+      "property1": "ncbigene:4843"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NO_simple_molecule",
+    "name": "NO_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16480"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAMN_simple_molecule_mitochondrial matrix",
+    "name": "NAMN_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15763"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_simple_molecule_mitochondrial matrix",
+    "name": "ATP_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30616"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMNAT3:Mg2+_complex",
+    "name": "NMNAT3:Mg2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18420",
+      "property1": "uniprot:Q96T66"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPi (3-)_simple_molecule",
+    "name": "PPi (3-)_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:33019"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAAD_simple_molecule_mitochondrial matrix",
+    "name": "NAAD_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18304"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S-NADPHX_simple_molecule",
+    "name": "S-NADPHX_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:64084"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CARKD",
+    "name": "CARKD",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q8IW45"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAD+_simple_molecule_mitochondrial matrix",
+    "name": "NAD+_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57540"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADK2",
+    "name": "NADK2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q4G0N4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_mitochondrial matrix",
+    "name": "H+_ion_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP_simple_molecule_mitochondrial matrix",
+    "name": "ADP_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:456216"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADPH_simple_molecule_mitochondrial matrix",
+    "name": "NADPH_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16474"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "R-NADPHX_simple_molecule",
+    "name": "R-NADPHX_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:64085"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "APOA1BP",
+    "name": "APOA1BP",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O95544"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADP+_simple_molecule_mitochondrial matrix",
+    "name": "NADP+_simple_molecule_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18009"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pi_simple_molecule",
+    "name": "Pi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18367"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC22A13",
+    "name": "SLC22A13",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9Y226"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NCA_simple_molecule",
+    "name": "NCA_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:32544",
+      "property1": "CHEBI:32544"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAPRT1",
+    "name": "NAPRT1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q6XQN6"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mg2+_ion",
+    "name": "Mg2+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18420"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAM_simple_molecule_cell",
+    "name": "NAM_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17154"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAMPT",
+    "name": "NAMPT",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P43490"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPi_simple_molecule",
+    "name": "PPi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29888"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAMN_simple_molecule_cell",
+    "name": "NAMN_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15763"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPi(3-)_simple_molecule_cell",
+    "name": "PPi(3-)_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:33019"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Glu_simple_molecule",
+    "name": "L-Glu_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29985"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AMP_simple_molecule_cell",
+    "name": "AMP_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16027"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP_simple_molecule_cell",
+    "name": "ADP_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:456216"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AdoMet_simple_molecule",
+    "name": "AdoMet_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15414"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NNMT",
+    "name": "NNMT",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P40261"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MNA_simple_molecule",
+    "name": "MNA_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16797"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(ADP-D-ribosyl)(n)-acceptor_simple_molecule",
+    "name": "(ADP-D-ribosyl)(n)-acceptor_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:133202"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PARPs",
+    "name": "PARPs",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q53GL7",
+      "property1": "uniprot:Q8IXQ6",
+      "property2": "uniprot:Q8N5Y8"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AdoHcy_simple_molecule",
+    "name": "AdoHcy_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16680"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(ADP-D-ribosyl)(n+1)-acceptor_simple_molecule",
+    "name": "(ADP-D-ribosyl)(n+1)-acceptor_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:133203"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAD+_simple_molecule_human host",
+    "name": "NAD+_simple_molecule_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57540"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule_human host",
+    "name": "H2O_simple_molecule_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BST1",
+    "name": "BST1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q10588"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CD38",
+    "name": "CD38",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P28907"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_human host",
+    "name": "H+_ion_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAM_simple_molecule_human host",
+    "name": "NAM_simple_molecule_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17154"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dh-beta-NAD_simple_molecule",
+    "name": "dh-beta-NAD_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:90171",
+      "property1": "CHEBI:90174"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O2_ion",
+    "name": "O2_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15379"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RNLS:FAD_complex",
+    "name": "RNLS:FAD_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16238",
+      "property1": "uniprot:Q5VYX0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O2_simple_molecule",
+    "name": "H2O2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16240"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP-ribose_simple_molecule",
+    "name": "ADP-ribose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57967"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NT5E:Zn2+_complex",
+    "name": "NT5E:Zn2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29105",
+      "property1": "uniprot:P21589"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMN_simple_molecule_human host",
+    "name": "NMN_simple_molecule_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:14649"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pi_ion",
+    "name": "Pi_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18367"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NRNAM_simple_molecule",
+    "name": "NRNAM_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15927"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADH_simple_molecule_peroxisome",
+    "name": "NADH_simple_molecule_peroxisome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:57945"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AMP_simple_molecule_peroxisome",
+    "name": "AMP_simple_molecule_peroxisome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16027"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule_peroxisome",
+    "name": "H2O_simple_molecule_peroxisome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUDT12",
+    "name": "NUDT12",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9BQG2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMNH_simple_molecule",
+    "name": "NMNH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:74452"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_peroxisome",
+    "name": "H+_ion_peroxisome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAMN_simple_molecule_nucleus",
+    "name": "NAMN_simple_molecule_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15763"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_simple_molecule_nucleus",
+    "name": "ATP_simple_molecule_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30616"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMNAT1:Zn2+_complex",
+    "name": "NMNAT1:Zn2+_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29105",
+      "property1": "uniprot:Q9HAN9"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAAD_simple_molecule_nucleus",
+    "name": "NAAD_simple_molecule_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18304"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPi(3-)_simple_molecule_nucleus",
+    "name": "PPi(3-)_simple_molecule_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:33019"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PGH2_simple_molecule",
+    "name": "PGH2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15554"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PTGIS",
+    "name": "PTGIS",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q16647"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PGI2_simple_molecule",
+    "name": "PGI2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15552"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PGG2_simple_molecule",
+    "name": "PGG2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:27647"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "e-_ion",
+    "name": "e-_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:10545"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion_endoplasmic reticulum",
+    "name": "H+_ion_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PTGS2",
+    "name": "PTGS2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P35354"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PTCS2:celecoxib_complex",
+    "name": "PTCS2:celecoxib_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:41423",
+      "property1": "uniprot:P35354"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule_endoplasmic reticulum",
+    "name": "H2O_simple_molecule_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "monocarboxylates transported by SLC5A8_simple_molecule_human host",
+    "name": "monocarboxylates transported by SLC5A8_simple_molecule_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Na+_ion_human host",
+    "name": "Na+_ion_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29101"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC5A8",
+    "name": "SLC5A8",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q8N695"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "monocarboxylates transported by SLC5A8_simple_molecule_cell",
+    "name": "monocarboxylates transported by SLC5A8_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Na+_ion_cell",
+    "name": "Na+_ion_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29101"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HMOX1_rna",
+    "name": "HMOX1_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:3162",
+      "property1": "ncbigene:3162"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a",
+    "name": "Orf3a",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:BCD58754",
+      "property1": "uniprot:P0DTC3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe2+_ion",
+    "name": "Fe2+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29033"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Biliverdin_simple_molecule",
+    "name": "Biliverdin_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17033"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CA_simple_molecule",
+    "name": "CA_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "T-cell apoptosis_phenotype",
+    "name": "T-cell apoptosis_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0070231"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Dendritic cell maturation_phenotype",
+    "name": "Dendritic cell maturation_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0097029"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Citrulline_simple_molecule",
+    "name": "Citrulline_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16349"
+     }
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "L-Kynurenine_simple_molecule",
+    "target": "AHR/L-KYN_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "AHR",
+    "target": "AHR/L-KYN_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "CO_simple_molecule",
+    "target": "CO_simple_molecule",
+    "sign": false
+   },
+   {
+    "id": "t4",
+    "source": "Heme_simple_molecule",
+    "target": "IDO1_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "apo-IDO1",
+    "target": "IDO1_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "SLC36A4",
+    "target": "L-Tryptophan_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "L-Tryptophan_simple_molecule_human host",
+    "target": "L-Tryptophan_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "IDO1_rna",
+    "target": "apo-IDO1",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "KMO",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "O2_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "QUIN_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "Heme_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "L-Kynurenine_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "ACS_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "PRPP_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "QPRT",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "AP-DOBu_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "H+_ion_cell",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "HMOX1_cell",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "O2_simple_molecule",
+    "target": "NFK_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "IDO2",
+    "target": "NFK_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "L-Tryptophan_simple_molecule_cell",
+    "target": "NFK_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "Epacadostat_drug",
+    "target": "NFK_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "IDO1_complex",
+    "target": "NFK_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "PYR_simple_molecule",
+    "target": "AP-DOBu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "L-Kynurenine_simple_molecule",
+    "target": "AP-DOBu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "L-Phe_simple_molecule",
+    "target": "AP-DOBu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "I3PROPA",
+    "target": "AP-DOBu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "PXLP-KYAT1_complex",
+    "target": "AP-DOBu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "I3LACT",
+    "target": "AP-DOBu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "NFK_simple_molecule",
+    "target": "HCOOH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "AFMID",
+    "target": "HCOOH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "H2O_simple_molecule_cell",
+    "target": "HCOOH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "NFK_simple_molecule",
+    "target": "L-Kynurenine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "AFMID",
+    "target": "L-Kynurenine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "H2O_simple_molecule_cell",
+    "target": "L-Kynurenine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "KMO",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "O2_simple_molecule",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "Heme_simple_molecule",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "NADK:Zn2+ tetramer_complex",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "NAD+_simple_molecule_cell",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "L-Kynurenine_simple_molecule",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "L-Arginine_simple_molecule",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "iNOS",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "ATP_simple_molecule_cell",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "H+_ion_cell",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "HMOX1_cell",
+    "target": "NADP+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "NMRK2",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "O2_simple_molecule",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "NAD+_simple_molecule_cell",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "NMRK1",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "L-Arginine_simple_molecule",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "H2O_simple_molecule_cell",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "NR_simple_molecule",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "iNOS",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "ATP_simple_molecule_cell",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "NAR_simple_molecule",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "2AMA_simple_molecule",
+    "target": "H+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "AP-DOBu_simple_molecule",
+    "target": "KYNA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "3HKYN_simple_molecule",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "PYR_simple_molecule",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "L-Kynurenine_simple_molecule",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "L-Phe_simple_molecule",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "H2O_simple_molecule_cell",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "I3PROPA",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "PXLP-KYAT1_complex",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "I3LACT",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "KYNU",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "CCBL2",
+    "target": "L-Ala_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "3HKYN_simple_molecule",
+    "target": "3HAA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "H2O_simple_molecule_cell",
+    "target": "3HAA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "KYNU",
+    "target": "3HAA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "KMO",
+    "target": "3HKYN_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "O2_simple_molecule",
+    "target": "3HKYN_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "L-Kynurenine_simple_molecule",
+    "target": "3HKYN_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "3HKYN_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "H+_ion_cell",
+    "target": "3HKYN_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "3HAA_simple_molecule",
+    "target": "Regulatory T-cell generation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "AHR/L-KYN_complex",
+    "target": "Regulatory T-cell generation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "3HAA_simple_molecule",
+    "target": "ACS_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "O2_simple_molecule",
+    "target": "ACS_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "HAAO",
+    "target": "ACS_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "QUIN_simple_molecule",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "ACS_simple_molecule",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "PRPP_simple_molecule",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "QPRT",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "ACMSD",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "H+_ion_cell",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "ACS_simple_molecule",
+    "target": "QUIN_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "NAD+_simple_molecule_cell",
+    "target": "NADH_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "2AMA_simple_molecule",
+    "target": "NADH_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "H2O_simple_molecule_cell",
+    "target": "NADH_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "NAAD_simple_molecule_cell",
+    "target": "NAD+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "L-Gln_simple_molecule",
+    "target": "NAD+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "H2O_simple_molecule_cell",
+    "target": "NAD+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "NADSYN1 hexamer",
+    "target": "NAD+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "ATP_simple_molecule_cell",
+    "target": "NAD+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "NMN_simple_molecule_cell",
+    "target": "NAD+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "NMNAT2:Mg2+_complex",
+    "target": "NAD+_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "ACMSD",
+    "target": "2AMA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "ACS_simple_molecule",
+    "target": "2AMA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "NAD+_simple_molecule_cell",
+    "target": "2AM_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "2AMA_simple_molecule",
+    "target": "2AM_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "H2O_simple_molecule_cell",
+    "target": "2AM_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "CO_simple_molecule",
+    "target": "iNOS_rna",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "Nf-KB Complex_complex",
+    "target": "iNOS_rna",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "IFN-G",
+    "target": "iNOS_rna",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "iNOS_rna",
+    "target": "iNOS",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "O2_simple_molecule",
+    "target": "NO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "L-Arginine_simple_molecule",
+    "target": "NO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "NO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "iNOS",
+    "target": "NO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "NO_simple_molecule",
+    "target": "IDO1_rna",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "IFN-G",
+    "target": "IDO1_rna",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "NAMN_simple_molecule_mitochondrial matrix",
+    "target": "PPi (3-)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "ATP_simple_molecule_mitochondrial matrix",
+    "target": "PPi (3-)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "NMNAT3:Mg2+_complex",
+    "target": "PPi (3-)_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "NAMN_simple_molecule_mitochondrial matrix",
+    "target": "NAAD_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "ATP_simple_molecule_mitochondrial matrix",
+    "target": "NAAD_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "NMNAT3:Mg2+_complex",
+    "target": "NAAD_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "CARKD",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "NAD+_simple_molecule_mitochondrial matrix",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "ATP_simple_molecule_mitochondrial matrix",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "S-NADPHX_simple_molecule",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "NADK2",
+    "target": "H+_ion_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "CARKD",
+    "target": "ADP_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "NAD+_simple_molecule_mitochondrial matrix",
+    "target": "ADP_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "ATP_simple_molecule_mitochondrial matrix",
+    "target": "ADP_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t132",
+    "source": "S-NADPHX_simple_molecule",
+    "target": "ADP_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "NADK2",
+    "target": "ADP_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "ATP_simple_molecule_mitochondrial matrix",
+    "target": "NADPH_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "S-NADPHX_simple_molecule",
+    "target": "NADPH_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "CARKD",
+    "target": "NADPH_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "R-NADPHX_simple_molecule",
+    "target": "S-NADPHX_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "APOA1BP",
+    "target": "S-NADPHX_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "ATP_simple_molecule_mitochondrial matrix",
+    "target": "NADP+_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "NAD+_simple_molecule_mitochondrial matrix",
+    "target": "NADP+_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "NADK2",
+    "target": "NADP+_simple_molecule_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t142",
+    "source": "ATP_simple_molecule_mitochondrial matrix",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "S-NADPHX_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "CARKD",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "SLC22A13",
+    "target": "NCA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "Mg2+_ion",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "NAAD_simple_molecule_cell",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "L-Gln_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "H2O_simple_molecule_cell",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "NAMPT",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t151",
+    "source": "PRPP_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "NCA_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "NAPRT1",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "ATP_simple_molecule_cell",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "NADSYN1 hexamer",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "H+_ion_cell",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t157",
+    "source": "NAM_simple_molecule_cell",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t158",
+    "source": "NMRK2",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t159",
+    "source": "Mg2+_ion",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t160",
+    "source": "QUIN_simple_molecule",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t161",
+    "source": "NMRK1",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t162",
+    "source": "NAMPT",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t163",
+    "source": "PRPP_simple_molecule",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t164",
+    "source": "NCA_simple_molecule",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t165",
+    "source": "QPRT",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t166",
+    "source": "ATP_simple_molecule_cell",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t167",
+    "source": "NAR_simple_molecule",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t168",
+    "source": "NAPRT1",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t169",
+    "source": "H+_ion_cell",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t170",
+    "source": "NAM_simple_molecule_cell",
+    "target": "NAMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t171",
+    "source": "NMNAT2:Mg2+_complex",
+    "target": "NAAD_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t172",
+    "source": "NAMN_simple_molecule_cell",
+    "target": "NAAD_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t173",
+    "source": "NMN_simple_molecule_cell",
+    "target": "PPi(3-)_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t174",
+    "source": "NMNAT2:Mg2+_complex",
+    "target": "PPi(3-)_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t175",
+    "source": "NAMN_simple_molecule_cell",
+    "target": "PPi(3-)_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t176",
+    "source": "ATP_simple_molecule_cell",
+    "target": "PPi(3-)_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t177",
+    "source": "NAAD_simple_molecule_cell",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t178",
+    "source": "L-Gln_simple_molecule",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t179",
+    "source": "H2O_simple_molecule_cell",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t180",
+    "source": "ATP_simple_molecule_cell",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t181",
+    "source": "NADSYN1 hexamer",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t182",
+    "source": "NAAD_simple_molecule_cell",
+    "target": "AMP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t183",
+    "source": "L-Gln_simple_molecule",
+    "target": "AMP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t184",
+    "source": "H2O_simple_molecule_cell",
+    "target": "AMP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t185",
+    "source": "ATP_simple_molecule_cell",
+    "target": "AMP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t186",
+    "source": "NADSYN1 hexamer",
+    "target": "AMP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t187",
+    "source": "NMRK2",
+    "target": "ADP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t188",
+    "source": "NADK:Zn2+ tetramer_complex",
+    "target": "ADP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t189",
+    "source": "NAD+_simple_molecule_cell",
+    "target": "ADP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t190",
+    "source": "NMRK1",
+    "target": "ADP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t191",
+    "source": "NR_simple_molecule",
+    "target": "ADP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t192",
+    "source": "ATP_simple_molecule_cell",
+    "target": "ADP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t193",
+    "source": "NAR_simple_molecule",
+    "target": "ADP_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t194",
+    "source": "NNMT",
+    "target": "MNA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t195",
+    "source": "AdoMet_simple_molecule",
+    "target": "MNA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t196",
+    "source": "NAM_simple_molecule_cell",
+    "target": "MNA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t197",
+    "source": "(ADP-D-ribosyl)(n)-acceptor_simple_molecule",
+    "target": "NAM_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t198",
+    "source": "NAD+_simple_molecule_cell",
+    "target": "NAM_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t199",
+    "source": "PARPs",
+    "target": "NAM_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t200",
+    "source": "NMRK2",
+    "target": "NMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t201",
+    "source": "NR_simple_molecule",
+    "target": "NMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t202",
+    "source": "ATP_simple_molecule_cell",
+    "target": "NMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t203",
+    "source": "NMRK1",
+    "target": "NMN_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t204",
+    "source": "NNMT",
+    "target": "AdoHcy_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t205",
+    "source": "AdoMet_simple_molecule",
+    "target": "AdoHcy_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t206",
+    "source": "NAM_simple_molecule_cell",
+    "target": "AdoHcy_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t207",
+    "source": "(ADP-D-ribosyl)(n)-acceptor_simple_molecule",
+    "target": "(ADP-D-ribosyl)(n+1)-acceptor_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t208",
+    "source": "NAD+_simple_molecule_cell",
+    "target": "(ADP-D-ribosyl)(n+1)-acceptor_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t209",
+    "source": "PARPs",
+    "target": "(ADP-D-ribosyl)(n+1)-acceptor_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t210",
+    "source": "NAD+_simple_molecule_human host",
+    "target": "H+_ion_human host",
+    "sign": true
+   },
+   {
+    "id": "t211",
+    "source": "H2O_simple_molecule_human host",
+    "target": "H+_ion_human host",
+    "sign": true
+   },
+   {
+    "id": "t212",
+    "source": "CD38",
+    "target": "H+_ion_human host",
+    "sign": true
+   },
+   {
+    "id": "t213",
+    "source": "BST1",
+    "target": "H+_ion_human host",
+    "sign": true
+   },
+   {
+    "id": "t214",
+    "source": "NAD+_simple_molecule_human host",
+    "target": "NAM_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t215",
+    "source": "H2O_simple_molecule_human host",
+    "target": "NAM_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t216",
+    "source": "CD38",
+    "target": "NAM_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t217",
+    "source": "BST1",
+    "target": "NAM_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t218",
+    "source": "RNLS:FAD_complex",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t219",
+    "source": "dh-beta-NAD_simple_molecule",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t220",
+    "source": "O2_ion",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t221",
+    "source": "H+_ion_human host",
+    "target": "H2O2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t222",
+    "source": "RNLS:FAD_complex",
+    "target": "NAD+_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t223",
+    "source": "dh-beta-NAD_simple_molecule",
+    "target": "NAD+_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t224",
+    "source": "O2_ion",
+    "target": "NAD+_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t225",
+    "source": "H+_ion_human host",
+    "target": "NAD+_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t226",
+    "source": "NAD+_simple_molecule_human host",
+    "target": "ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t227",
+    "source": "H2O_simple_molecule_human host",
+    "target": "ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t228",
+    "source": "CD38",
+    "target": "ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t229",
+    "source": "BST1",
+    "target": "ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t230",
+    "source": "NAD+_simple_molecule_human host",
+    "target": "Pi_ion",
+    "sign": true
+   },
+   {
+    "id": "t231",
+    "source": "H2O_simple_molecule_human host",
+    "target": "Pi_ion",
+    "sign": true
+   },
+   {
+    "id": "t232",
+    "source": "NT5E:Zn2+_complex",
+    "target": "Pi_ion",
+    "sign": true
+   },
+   {
+    "id": "t233",
+    "source": "NMN_simple_molecule_human host",
+    "target": "Pi_ion",
+    "sign": true
+   },
+   {
+    "id": "t234",
+    "source": "NAD+_simple_molecule_human host",
+    "target": "NMN_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t235",
+    "source": "H2O_simple_molecule_human host",
+    "target": "NMN_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t236",
+    "source": "NT5E:Zn2+_complex",
+    "target": "NMN_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t237",
+    "source": "NT5E:Zn2+_complex",
+    "target": "NRNAM_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t238",
+    "source": "H2O_simple_molecule_human host",
+    "target": "NRNAM_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t239",
+    "source": "NMN_simple_molecule_human host",
+    "target": "NRNAM_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t240",
+    "source": "AMP_simple_molecule_peroxisome",
+    "target": "NMNH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t241",
+    "source": "H2O_simple_molecule_peroxisome",
+    "target": "NMNH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t242",
+    "source": "NADH_simple_molecule_peroxisome",
+    "target": "NMNH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t243",
+    "source": "NUDT12",
+    "target": "NMNH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t244",
+    "source": "AMP_simple_molecule_peroxisome",
+    "target": "H+_ion_peroxisome",
+    "sign": true
+   },
+   {
+    "id": "t245",
+    "source": "H2O_simple_molecule_peroxisome",
+    "target": "H+_ion_peroxisome",
+    "sign": true
+   },
+   {
+    "id": "t246",
+    "source": "NADH_simple_molecule_peroxisome",
+    "target": "H+_ion_peroxisome",
+    "sign": true
+   },
+   {
+    "id": "t247",
+    "source": "NUDT12",
+    "target": "H+_ion_peroxisome",
+    "sign": true
+   },
+   {
+    "id": "t248",
+    "source": "NMNAT1:Zn2+_complex",
+    "target": "NAAD_simple_molecule_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t249",
+    "source": "NAMN_simple_molecule_nucleus",
+    "target": "NAAD_simple_molecule_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t250",
+    "source": "ATP_simple_molecule_nucleus",
+    "target": "NAAD_simple_molecule_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t251",
+    "source": "NMNAT1:Zn2+_complex",
+    "target": "PPi(3-)_simple_molecule_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t252",
+    "source": "NAMN_simple_molecule_nucleus",
+    "target": "PPi(3-)_simple_molecule_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t253",
+    "source": "ATP_simple_molecule_nucleus",
+    "target": "PPi(3-)_simple_molecule_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t254",
+    "source": "PTGIS",
+    "target": "PGI2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t255",
+    "source": "PGH2_simple_molecule",
+    "target": "PGI2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t256",
+    "source": "PGG2_simple_molecule",
+    "target": "PGH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t257",
+    "source": "e-_ion",
+    "target": "PGH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t258",
+    "source": "MNA_simple_molecule",
+    "target": "PGH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t259",
+    "source": "PTCS2:celecoxib_complex",
+    "target": "PGH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t260",
+    "source": "H+_ion_endoplasmic reticulum",
+    "target": "PGH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t261",
+    "source": "PTGS2",
+    "target": "PGH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t262",
+    "source": "PGG2_simple_molecule",
+    "target": "H2O_simple_molecule_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t263",
+    "source": "e-_ion",
+    "target": "H2O_simple_molecule_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t264",
+    "source": "MNA_simple_molecule",
+    "target": "H2O_simple_molecule_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t265",
+    "source": "PTCS2:celecoxib_complex",
+    "target": "H2O_simple_molecule_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t266",
+    "source": "H+_ion_endoplasmic reticulum",
+    "target": "H2O_simple_molecule_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t267",
+    "source": "PTGS2",
+    "target": "H2O_simple_molecule_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t268",
+    "source": "monocarboxylates transported by SLC5A8_simple_molecule_human host",
+    "target": "monocarboxylates transported by SLC5A8_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t269",
+    "source": "Na+_ion_human host",
+    "target": "monocarboxylates transported by SLC5A8_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t270",
+    "source": "SLC5A8",
+    "target": "monocarboxylates transported by SLC5A8_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t271",
+    "source": "monocarboxylates transported by SLC5A8_simple_molecule_human host",
+    "target": "Na+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t272",
+    "source": "Na+_ion_human host",
+    "target": "Na+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t273",
+    "source": "SLC5A8",
+    "target": "Na+_ion_cell",
+    "sign": true
+   },
+   {
+    "id": "t274",
+    "source": "3HAA_simple_molecule",
+    "target": "HMOX1_rna",
+    "sign": true
+   },
+   {
+    "id": "t275",
+    "source": "NO_simple_molecule",
+    "target": "HMOX1_rna",
+    "sign": true
+   },
+   {
+    "id": "t276",
+    "source": "IFN-G",
+    "target": "HMOX1_rna",
+    "sign": true
+   },
+   {
+    "id": "t277",
+    "source": "HMOX1_rna",
+    "target": "HMOX1_cell",
+    "sign": true
+   },
+   {
+    "id": "t278",
+    "source": "Orf3a",
+    "target": "HMOX1_cell",
+    "sign": true
+   },
+   {
+    "id": "t279",
+    "source": "O2_simple_molecule",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t280",
+    "source": "Heme_simple_molecule",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t281",
+    "source": "HMOX1_cell",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t282",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t283",
+    "source": "O2_simple_molecule",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t284",
+    "source": "Heme_simple_molecule",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t285",
+    "source": "HMOX1_cell",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t286",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t287",
+    "source": "O2_simple_molecule",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t288",
+    "source": "Heme_simple_molecule",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t289",
+    "source": "HMOX1_cell",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t290",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t291",
+    "source": "L-Tryptophan_simple_molecule_human host",
+    "target": "L-Tryptophan_simple_molecule_human host",
+    "sign": false
+   },
+   {
+    "id": "t292",
+    "source": "3HAA_simple_molecule",
+    "target": "CA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t293",
+    "source": "3HAA_simple_molecule",
+    "target": "3HAA_simple_molecule",
+    "sign": false
+   },
+   {
+    "id": "t294",
+    "source": "3HAA_simple_molecule",
+    "target": "T-cell apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t295",
+    "source": "L-Kynurenine_simple_molecule",
+    "target": "T-cell apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t296",
+    "source": "3HKYN_simple_molecule",
+    "target": "T-cell apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t297",
+    "source": "CA_simple_molecule",
+    "target": "T-cell apoptosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t298",
+    "source": "3HKYN_simple_molecule",
+    "target": "Dendritic cell maturation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t299",
+    "source": "3HAA_simple_molecule",
+    "target": "Dendritic cell maturation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t300",
+    "source": "O2_simple_molecule",
+    "target": "Citrulline_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t301",
+    "source": "L-Arginine_simple_molecule",
+    "target": "Citrulline_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t302",
+    "source": "NADPH_simple_molecule_cell",
+    "target": "Citrulline_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t303",
+    "source": "iNOS",
+    "target": "Citrulline_simple_molecule",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/NLRP3_Activation.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/NLRP3_Activation.json
new file mode 100644
index 000000000..94f06207d
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/NLRP3_Activation.json
@@ -0,0 +1,1212 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "ASC:MAVS_complex",
+    "name": "ASC:MAVS_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF3",
+    "name": "TRAF3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q13114"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ASC:MAVS:TRAF3_complex_cell",
+    "name": "ASC:MAVS:TRAF3_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q13114",
+      "property1": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3_cell",
+    "name": "NLRP3_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q96P20"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SUGT1:HSP90AB1_complex",
+    "name": "SUGT1:HSP90AB1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P08238",
+      "property1": "uniprot:P08238",
+      "property2": "uniprot:Q9Y2Z0",
+      "property3": "uniprot:Q9Y2Z0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3:SUGT1:HSP90_complex",
+    "name": "NLRP3:SUGT1:HSP90_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P08238",
+      "property1": "uniprot:Q96P20",
+      "property2": "uniprot:Q9Y2Z0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP1_cell",
+    "name": "CASP1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P29466"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3 oligomer:ASC_complex",
+    "name": "NLRP3 oligomer:ASC_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q96P20",
+      "property1": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "name": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P29466",
+      "property1": "uniprot:Q96P20",
+      "property2": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CTSG",
+    "name": "CTSG",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P08311"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ASC_ubiquitinated",
+    "name": "ASC_ubiquitinated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP1(120-197):CASP1(317-404)_complex",
+    "name": "CASP1(120-197):CASP1(317-404)_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P29466",
+      "property1": "uniprot:P29466"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Caspase-1 Tetramer_complex",
+    "name": "Caspase-1 Tetramer_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P29466",
+      "property1": "uniprot:P29466"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TXNIP",
+    "name": "TXNIP",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9H3M7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TXNIP:NLRP3_complex",
+    "name": "TXNIP:NLRP3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q96P20",
+      "property1": "uniprot:Q9H3M7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP1_cell",
+    "name": "CASP1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF3:SARS Orf3a_complex_cell",
+    "name": "TRAF3:SARS Orf3a_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "taxonomy:694009",
+      "property1": "taxonomy:694009",
+      "property2": "uniprot:P59632",
+      "property3": "uniprot:P59632",
+      "property4": "uniprot:Q13114",
+      "property5": "uniprot:Q13114"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKBA_phosphorylated_phosphorylated",
+    "name": "IKBA_phosphorylated_phosphorylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nf-KB Complex_complex_cell",
+    "name": "Nf-KB Complex_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P19838",
+      "property1": "uniprot:Q00653"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NF-KB COMPLEX:IKBA_complex",
+    "name": "NF-KB COMPLEX:IKBA_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P19838"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "p50",
+    "name": "p50",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P19838"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "p65",
+    "name": "p65",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q00653"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nf-KB Complex_complex_nucleus",
+    "name": "Nf-KB Complex_complex_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P19838",
+      "property1": "uniprot:Q00653"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TXN_cell",
+    "name": "TXN_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P10599"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thioredoxin:TXNIP_complex",
+    "name": "Thioredoxin:TXNIP_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P10599",
+      "property1": "uniprot:Q9H3M7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ASC",
+    "name": "ASC",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9ULZ3"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAVS",
+    "name": "MAVS",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q7Z434"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a",
+    "name": "Orf3a",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "taxonomy:694009",
+      "property1": "uniprot:P59632"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DAMPs_phenotype",
+    "name": "DAMPs_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0002221"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PAMPs_phenotype",
+    "name": "PAMPs_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0002221"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3 Elicitor Small Molecules_simple_molecule",
+    "name": "NLRP3 Elicitor Small Molecules_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16336",
+      "property1": "CHEBI:30563",
+      "property2": "CHEBI:46661"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3 Elicitor Proteins",
+    "name": "NLRP3 Elicitor Proteins",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P05067",
+      "property1": "uniprot:P09616"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Reactive Oxygen Species_simple_molecule",
+    "name": "Reactive Oxygen Species_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:26523"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ca2+_ion",
+    "name": "Ca2+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29108",
+      "property1": "CHEBI:29108",
+      "property2": "CHEBI:29108"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CO_simple_molecule",
+    "name": "CO_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17245"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "proIL-18_rna",
+    "name": "proIL-18_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:3606",
+      "property1": "ncbigene:3606"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "proIL-18_cell",
+    "name": "proIL-18_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14116"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "proIL-1B_rna",
+    "name": "proIL-1B_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:3553",
+      "property1": "ncbigene:3553"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "proIL-1B_cell",
+    "name": "proIL-1B_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P01584"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL-18_cell",
+    "name": "IL-18_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14116"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL-1B_cell",
+    "name": "IL-1B_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P01584"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL-18_default_compartment",
+    "name": "IL-18_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q14116"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL-1B_default_compartment",
+    "name": "IL-1B_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P01584"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "p105_ubiquitinated",
+    "name": "p105_ubiquitinated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P19838",
+      "property1": "uniprot:P19838"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_Golgi apparatus",
+    "name": "E_Golgi apparatus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P59637"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_endoplasmic reticulum-Golgi intermediate compartment",
+    "name": "E_endoplasmic reticulum-Golgi intermediate compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "taxonomy:694009",
+      "property1": "uniprot:P59637"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Heme_simple_molecule",
+    "name": "Heme_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:30413"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O2_simple_molecule",
+    "name": "O2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15379"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADPH_simple_molecule",
+    "name": "NADPH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16474"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HMOX1",
+    "name": "HMOX1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P09601"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADP+_simple_molecule",
+    "name": "NADP+_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18009"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Biliverdin_simple_molecule",
+    "name": "Biliverdin_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17033"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule",
+    "name": "H2O_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fe2+_ion",
+    "name": "Fe2+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29033"
+     }
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "TRAF3",
+    "target": "ASC:MAVS:TRAF3_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "ASC:MAVS_complex",
+    "target": "ASC:MAVS:TRAF3_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "NLRP3_cell",
+    "target": "NLRP3:SUGT1:HSP90_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "SUGT1:HSP90AB1_complex",
+    "target": "NLRP3:SUGT1:HSP90_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "NLRP3 oligomer:ASC_complex",
+    "target": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "CASP1_cell",
+    "target": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "target": "NLRP3 oligomer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "NLRP3_cell",
+    "target": "NLRP3 oligomer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "CTSG",
+    "target": "NLRP3 oligomer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "ASC_ubiquitinated",
+    "target": "NLRP3 oligomer:ASC_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "CASP1(120-197):CASP1(317-404)_complex",
+    "target": "Caspase-1 Tetramer_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "NLRP3_cell",
+    "target": "TXNIP:NLRP3_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "TXNIP",
+    "target": "TXNIP:NLRP3_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "CASP1_cell",
+    "target": "CASP1(120-197):CASP1(317-404)_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "TRAF3:SARS Orf3a_complex_cell",
+    "target": "ASC:MAVS:TRAF3_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "Nf-KB Complex_complex_cell",
+    "target": "NF-KB COMPLEX:IKBA_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "IKBA_phosphorylated_phosphorylated",
+    "target": "NF-KB COMPLEX:IKBA_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "p65",
+    "target": "Nf-KB Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "p50",
+    "target": "Nf-KB Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "Nf-KB Complex_complex_cell",
+    "target": "Nf-KB Complex_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "NF-KB COMPLEX:IKBA_complex",
+    "target": "Nf-KB Complex_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "TXNIP",
+    "target": "Thioredoxin:TXNIP_complex",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "TXN_cell",
+    "target": "Thioredoxin:TXNIP_complex",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "ASC",
+    "target": "ASC:MAVS_complex",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "MAVS",
+    "target": "ASC:MAVS_complex",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "TRAF3",
+    "target": "TRAF3:SARS Orf3a_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "Orf3a",
+    "target": "TRAF3:SARS Orf3a_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "NLRP3 Elicitor Proteins",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "DAMPs_phenotype",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "PAMPs_phenotype",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "Reactive Oxygen Species_simple_molecule",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "NLRP3 Elicitor Small Molecules_simple_molecule",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "TXNIP:NLRP3_complex",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "Ca2+_ion",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "NLRP3:SUGT1:HSP90_complex",
+    "target": "SUGT1:HSP90AB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "CO_simple_molecule",
+    "target": "CO_simple_molecule",
+    "sign": false
+   },
+   {
+    "id": "t37",
+    "source": "Thioredoxin:TXNIP_complex",
+    "target": "TXNIP",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "proIL-18_rna",
+    "target": "proIL-18_cell",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "proIL-1B_rna",
+    "target": "proIL-1B_cell",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "proIL-18_cell",
+    "target": "IL-18_cell",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "Caspase-1 Tetramer_complex",
+    "target": "IL-18_cell",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "Caspase-1 Tetramer_complex",
+    "target": "IL-1B_cell",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "proIL-1B_cell",
+    "target": "IL-1B_cell",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "Caspase-1 Tetramer_complex",
+    "target": "proIL-18_cell",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "IL-18_cell",
+    "target": "IL-18_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "IL-1B_cell",
+    "target": "IL-1B_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "p105_ubiquitinated",
+    "target": "p50",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "TRAF3:SARS Orf3a_complex_cell",
+    "target": "p105_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "Nf-KB Complex_complex_nucleus",
+    "target": "proIL-18_rna",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "Nf-KB Complex_complex_nucleus",
+    "target": "proIL-1B_rna",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "ASC:MAVS:TRAF3_complex_cell",
+    "target": "TRAF3",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "NLRP3 Elicitor Proteins",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "DAMPs_phenotype",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "PAMPs_phenotype",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "Reactive Oxygen Species_simple_molecule",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "NLRP3 Elicitor Small Molecules_simple_molecule",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "TXNIP:NLRP3_complex",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "Ca2+_ion",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "NLRP3:SUGT1:HSP90_complex",
+    "target": "NLRP3_cell",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "ASC:MAVS:TRAF3_complex_cell",
+    "target": "MAVS",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "ASC:MAVS:TRAF3_complex_cell",
+    "target": "ASC_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "E_Golgi apparatus",
+    "target": "Ca2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "E_endoplasmic reticulum-Golgi intermediate compartment",
+    "target": "Ca2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "NADPH_simple_molecule",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "O2_simple_molecule",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "Heme_simple_molecule",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "HMOX1",
+    "target": "NADP+_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "NADPH_simple_molecule",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "O2_simple_molecule",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "Heme_simple_molecule",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "HMOX1",
+    "target": "Biliverdin_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "NADPH_simple_molecule",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "O2_simple_molecule",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "Heme_simple_molecule",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "HMOX1",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "NADPH_simple_molecule",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "O2_simple_molecule",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "Heme_simple_molecule",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "HMOX1",
+    "target": "CO_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "NADPH_simple_molecule",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "O2_simple_molecule",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "Heme_simple_molecule",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "HMOX1",
+    "target": "Fe2+_ion",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "CTSG",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "CTSG",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "CTSG",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "CTSG",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "NLRP3 oligomer:ASC:proCaspase1_complex",
+    "target": "CASP1_cell",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "Caspase-1 Tetramer_complex",
+    "target": "proIL-1B_cell",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "Thioredoxin:TXNIP_complex",
+    "target": "TXN_cell",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "Reactive Oxygen Species_simple_molecule",
+    "target": "TXN_cell",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp14.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp14.json
new file mode 100644
index 000000000..08b98449b
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp14.json
@@ -0,0 +1,5153 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "SIRT5",
+    "name": "SIRT5",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17694089"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp14_mitochondrion",
+    "name": "Nsp14_mitochondrion",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.03.22.002386"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIRT5:Nsp14_complex",
+    "name": "SIRT5:Nsp14_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GLA",
+    "name": "GLA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp14_cell",
+    "name": "Nsp14_cell",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.03.22.002386"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GLA:Nsp14_complex",
+    "name": "GLA:Nsp14_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IMPDH2",
+    "name": "IMPDH2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IMPDH2:Nsp14_complex",
+    "name": "IMPDH2:Nsp14_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Lactose_simple_molecule",
+    "name": "Lactose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17716",
+      "property1": "pubchem.compound:440995"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule_cell",
+    "name": "H2O_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377",
+      "property1": "pubchem.compound:962"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GLB1",
+    "name": "GLB1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LCT",
+    "name": "LCT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Galacitol_simple_molecule",
+    "name": "Galacitol_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16813",
+      "property1": "pubchem.compound:11850"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADP_simple_molecule",
+    "name": "NADP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18009",
+      "property1": "pubchem.compound:5886"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AKR1B1",
+    "name": "AKR1B1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Melibiose_simple_molecule",
+    "name": "Melibiose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28053",
+      "property1": "pubchem.compound:440658"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Raffinose_simple_molecule",
+    "name": "Raffinose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16634",
+      "property1": "pubchem.compound:439242"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Stachyose_simple_molecule",
+    "name": "Stachyose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17164",
+      "property1": "pubchem.compound:439531"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Migalastat_drug",
+    "name": "Migalastat_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10866822"
+     },
+     "context": {
+      "property": "CHEBI:135923",
+      "property1": "pubchem.compound:176077"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "D-Galactose_simple_molecule",
+    "name": "D-Galactose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:27667",
+      "property1": "pubchem.compound:439353"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GALM",
+    "name": "GALM",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "_alpha_-D-Galactose_simple_molecule",
+    "name": "_alpha_-D-Galactose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28061",
+      "property1": "pubchem.compound:439357"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_simple_molecule",
+    "name": "ATP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15422",
+      "property1": "pubchem.compound:5957"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GALK1",
+    "name": "GALK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "_alpha_-D-Galactose-1P_simple_molecule",
+    "name": "_alpha_-D-Galactose-1P_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17973",
+      "property1": "pubchem.compound:123912"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAD_simple_molecule",
+    "name": "NAD_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15846",
+      "property1": "pubchem.compound:5892"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADK",
+    "name": "NADK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Deamino-NAD_simple_molecule",
+    "name": "Deamino-NAD_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18304",
+      "property1": "pubchem.compound:135421870"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Glutamine_simple_molecule",
+    "name": "L-Glutamine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18050",
+      "property1": "pubchem.compound:5961"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADSYN1",
+    "name": "NADSYN1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "12547821"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N-Ribosyl-nicotinamide_simple_molecule",
+    "name": "N-Ribosyl-nicotinamide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15927",
+      "property1": "pubchem.compound:439924"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NRK1",
+    "name": "NRK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nicotinate_simple_molecule",
+    "name": "Nicotinate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:32544",
+      "property1": "pubchem.compound:937"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "name": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17111",
+      "property1": "pubchem.compound:7339"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAPRT1",
+    "name": "NAPRT1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "name": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:37737",
+      "property1": "pubchem.compound:439905"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Glycine_simple_molecule",
+    "name": "Glycine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15428",
+      "property1": "pubchem.compound:750"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GART",
+    "name": "GART",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "name": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "pubchem.compound:129652037"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PFAS",
+    "name": "PFAS",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "name": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "pubchem.compound:5462266"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "name": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28413",
+      "property1": "pubchem.compound:165388"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Aspartate_simple_molecule",
+    "name": "L-Aspartate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17053",
+      "property1": "pubchem.compound:5960"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PAICS",
+    "name": "PAICS",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GMP_simple_molecule",
+    "name": "GMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17345",
+      "property1": "pubchem.compound:135398631"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GUK1",
+    "name": "GUK1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "8663313"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GDP_simple_molecule",
+    "name": "GDP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17552",
+      "property1": "pubchem.compound:135398619"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NME3",
+    "name": "NME3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nucleoside diphosphate kinase_complex_cell",
+    "name": "Nucleoside diphosphate kinase_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NME5",
+    "name": "NME5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NME6",
+    "name": "NME6",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NME7",
+    "name": "NME7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dGDP_simple_molecule",
+    "name": "dGDP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28862",
+      "property1": "pubchem.compound:135398595"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dGMP_simple_molecule",
+    "name": "dGMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16192",
+      "property1": "pubchem.compound:135398597"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Deoxyguanosine_simple_molecule",
+    "name": "Deoxyguanosine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17172",
+      "property1": "pubchem.compound:135398592"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DCK",
+    "name": "DCK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Adenosine_simple_molecule",
+    "name": "Adenosine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16335",
+      "property1": "pubchem.compound:60961"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADK",
+    "name": "ADK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AMP_simple_molecule",
+    "name": "AMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16027",
+      "property1": "pubchem.compound:6083"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AK7",
+    "name": "AK7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AK1",
+    "name": "AK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AK8",
+    "name": "AK8",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AK5",
+    "name": "AK5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Deoxyadenosine_simple_molecule",
+    "name": "Deoxyadenosine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17256",
+      "property1": "pubchem.compound:13730"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dAMP_simple_molecule",
+    "name": "dAMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17713",
+      "property1": "pubchem.compound:12599"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dADP_simple_molecule",
+    "name": "dADP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16174",
+      "property1": "pubchem.compound:188966"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP_simple_molecule",
+    "name": "ADP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16761",
+      "property1": "pubchem.compound:6022"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UDP-_alpha_-D-Glucose_simple_molecule",
+    "name": "UDP-_alpha_-D-Glucose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:46229",
+      "property1": "pubchem.compound:8629"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GALT",
+    "name": "GALT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GALE",
+    "name": "GALE",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UDP-_alpha_-D-Galactose_simple_molecule",
+    "name": "UDP-_alpha_-D-Galactose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:66914",
+      "property1": "pubchem.compound:18068"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPi_simple_molecule",
+    "name": "PPi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18361",
+      "property1": "pubchem.compound:644102"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UGP2",
+    "name": "UGP2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "_alpha_-D-Glucose-1-P_simple_molecule",
+    "name": "_alpha_-D-Glucose-1-P_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29042",
+      "property1": "pubchem.compound:439165"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UTP_simple_molecule",
+    "name": "UTP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15713",
+      "property1": "pubchem.compound:6133"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "name": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16171",
+      "property1": "pubchem.compound:14180"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H_simple_molecule",
+    "name": "H_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:24636",
+      "property1": "pubchem.compound:1038"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMNAT2",
+    "name": "NMNAT2",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "12359228"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMNAT1",
+    "name": "NMNAT1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "12359228"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NMNAT3",
+    "name": "NMNAT3",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17402747"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nicotinamide_simple_molecule",
+    "name": "Nicotinamide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17154",
+      "property1": "pubchem.compound:936"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAMPT",
+    "name": "NAMPT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nicotinate D-ribonucleotide_simple_molecule",
+    "name": "Nicotinate D-ribonucleotide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15763",
+      "property1": "pubchem.compound:121992"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Quinolinate_simple_molecule",
+    "name": "Quinolinate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16675",
+      "property1": "pubchem.compound:1066"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "QPRT",
+    "name": "QPRT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPAT",
+    "name": "PPAT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "XMP_simple_molecule",
+    "name": "XMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15652",
+      "property1": "pubchem.compound:73323"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GMPS",
+    "name": "GMPS",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "8089153"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dGTP_simple_molecule",
+    "name": "dGTP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16497",
+      "property1": "pubchem.compound:135398599"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ITPA",
+    "name": "ITPA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENPP1",
+    "name": "ENPP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENPP3",
+    "name": "ENPP3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Guanine_simple_molecule",
+    "name": "Guanine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16235",
+      "property1": "pubchem.compound:135398634"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HPRT1",
+    "name": "HPRT1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Hypoxanthine_simple_molecule",
+    "name": "Hypoxanthine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17368",
+      "property1": "pubchem.compound:135398638"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Adenine_simple_molecule",
+    "name": "Adenine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16708",
+      "property1": "pubchem.compound:190"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "APRT",
+    "name": "APRT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "_alpha_-D-Glucose_simple_molecule",
+    "name": "_alpha_-D-Glucose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28102",
+      "property1": "pubchem.compound:79025"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "lactose synthetase_complex",
+    "name": "lactose synthetase_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UDP_simple_molecule",
+    "name": "UDP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17659",
+      "property1": "pubchem.compound:6031"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "1-(5'-Phosphoribosyl)-5-formamido-4-imidazolecarboxamide_simple_molecule",
+    "name": "1-(5'-Phosphoribosyl)-5-formamido-4-imidazolecarboxamide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18381",
+      "property1": "pubchem.compound:166760"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATIC",
+    "name": "ATIC",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thioredoxin_simple_molecule",
+    "name": "Thioredoxin_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15033",
+      "property1": "pubchem.substance:223441017",
+      "property2": "pubchem.substance:3635"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ribonucleoside reductase_complex_cell",
+    "name": "ribonucleoside reductase_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADPH_simple_molecule",
+    "name": "NADPH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16474",
+      "property1": "pubchem.compound:5884"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NNT",
+    "name": "NNT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IMP_simple_molecule",
+    "name": "IMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17202",
+      "property1": "pubchem.compound:135398640"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ammonium_simple_molecule",
+    "name": "Ammonium_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28938",
+      "property1": "pubchem.compound:223"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GMPR",
+    "name": "GMPR",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GMPR2",
+    "name": "GMPR2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CD38",
+    "name": "CD38",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16690024"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "name": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:143788",
+      "property1": "pubchem.compound:129630972"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "10-Formyltetrahydrofolate_simple_molecule",
+    "name": "10-Formyltetrahydrofolate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15637",
+      "property1": "pubchem.compound:135450591"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Aminoimidazole ribotide_simple_molecule",
+    "name": "Aminoimidazole ribotide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:138560",
+      "property1": "pubchem.compound:161500"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CO2_simple_molecule",
+    "name": "CO2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16526",
+      "property1": "pubchem.compound:280"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IMPDH1",
+    "name": "IMPDH1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GTP_simple_molecule",
+    "name": "GTP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15996",
+      "property1": "pubchem.compound:35398633"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENTPD2",
+    "name": "ENTPD2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NTPCR",
+    "name": "NTPCR",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENTPD4",
+    "name": "ENTPD4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENTPD5",
+    "name": "ENTPD5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENTPD6",
+    "name": "ENTPD6",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CANT1",
+    "name": "CANT1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "XDH",
+    "name": "XDH",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mycophenolic acid_drug",
+    "name": "Mycophenolic acid_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "5799033"
+     },
+     "context": {
+      "property": "CHEBI:168396",
+      "property1": "pubchem.compound:446541"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Merimepodib_drug",
+    "name": "Merimepodib_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10878288"
+     },
+     "context": {
+      "property": "pubchem.compound:53241"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ribavirin_drug",
+    "name": "Ribavirin_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "22555152"
+     },
+     "context": {
+      "property": "CHEBI:63580",
+      "property1": "pubchem.compound:37542"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Sucrose_simple_molecule",
+    "name": "Sucrose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17992",
+      "property1": "pubchem.compound:5988"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pi_simple_molecule",
+    "name": "Pi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18367",
+      "property1": "pubchem.compound:1061"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PNP",
+    "name": "PNP",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Histone N6-acetyl-L-lysine_simple_molecule",
+    "name": "Histone N6-acetyl-L-lysine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "pubchem.substance:5094"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule_mitochondrion",
+    "name": "H2O_simple_molecule_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15377",
+      "property1": "pubchem.compound:962"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NT5E",
+    "name": "NT5E",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "2848759"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADH_simple_molecule",
+    "name": "NADH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16908",
+      "property1": "pubchem.compound:439153"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Glutamate_simple_molecule",
+    "name": "L-Glutamate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16015",
+      "property1": "pubchem.compound:33032"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "D-Ribose 5P_simple_molecule",
+    "name": "D-Ribose 5P_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:78679",
+      "property1": "pubchem.compound:439167"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRPS1",
+    "name": "PRPS1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRPS2",
+    "name": "PRPS2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRPS1L1",
+    "name": "PRPS1L1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "2-deoxy-_alpha_-D-ribose 1-phosphate_simple_molecule",
+    "name": "2-deoxy-_alpha_-D-ribose 1-phosphate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28542",
+      "property1": "pubchem.compound:439287"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nicotinate-adenine dinucleotide phosphate_simple_molecule",
+    "name": "nicotinate-adenine dinucleotide phosphate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:75967",
+      "property1": "pubchem.compound:71768143"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Guanosine_simple_molecule",
+    "name": "Guanosine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16750",
+      "property1": "pubchem.compound:135398635"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Xanthosine_simple_molecule",
+    "name": "Xanthosine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18107",
+      "property1": "pubchem.compound:64959"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Inosine_simple_molecule",
+    "name": "Inosine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17596",
+      "property1": "pubchem.compound:35398641"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "name": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16300",
+      "property1": "pubchem.compound:439236"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Histone-L-lysine_simple_molecule",
+    "name": "Histone-L-lysine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:5738",
+      "property1": "pubchem.substance:223439948",
+      "property2": "pubchem.substance:5447"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "O-Acetyl-ADP-ribose_simple_molecule",
+    "name": "O-Acetyl-ADP-ribose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:76279",
+      "property1": "pubchem.compound:72193709"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP-D-ribose_simple_molecule",
+    "name": "ADP-D-ribose_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16960",
+      "property1": "pubchem.compound:33576"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "_alpha_D-Ribose 1P_simple_molecule",
+    "name": "_alpha_D-Ribose 1P_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16300",
+      "property1": "pubchem.compound:439236"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PGM2",
+    "name": "PGM2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "1-(5'-Phosphoribosyl)-5-amino-4-imidazolecarboxamide_simple_molecule",
+    "name": "1-(5'-Phosphoribosyl)-5-amino-4-imidazolecarboxamide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18406",
+      "property1": "pubchem.compound:65110"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Tetrahydrofolate_simple_molecule",
+    "name": "Tetrahydrofolate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:67016",
+      "property1": "pubchem.compound:135444742"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "1-(5'-Phosphoribosyl)-5-amino-4-(N-succinocarboxamide)-imidazole_simple_molecule",
+    "name": "1-(5'-Phosphoribosyl)-5-amino-4-(N-succinocarboxamide)-imidazole_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18319",
+      "property1": "pubchem.compound:160666"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADSL",
+    "name": "ADSL",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fumarate_simple_molecule",
+    "name": "Fumarate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:29806",
+      "property1": "pubchem.compound:5460307"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AMDP2",
+    "name": "AMDP2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AMPD1",
+    "name": "AMPD1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AMPD3",
+    "name": "AMPD3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Thioredoxin disulfide_simple_molecule",
+    "name": "Thioredoxin disulfide_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:18191",
+      "property1": "pubchem.substance:11533266",
+      "property2": "pubchem.substance:3636"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GDA",
+    "name": "GDA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADA",
+    "name": "ADA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Xanthine_simple_molecule",
+    "name": "Xanthine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15318",
+      "property1": "pubchem.compound:1188"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Deoxyinosine_simple_molecule",
+    "name": "Deoxyinosine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28997",
+      "property1": "pubchem.compound:135398593"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dATP_simple_molecule",
+    "name": "dATP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16284",
+      "property1": "pubchem.compound:15993"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Guanine nucleotide synthesis_phenotype",
+    "name": "Guanine nucleotide synthesis_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "1969416"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Urea cycle_phenotype",
+    "name": "Urea cycle_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "Nsp14_mitochondrion",
+    "target": "SIRT5:Nsp14_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "SIRT5",
+    "target": "SIRT5:Nsp14_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "Nsp14_cell",
+    "target": "GLA:Nsp14_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "GLA",
+    "target": "GLA:Nsp14_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "Nsp14_cell",
+    "target": "IMPDH2:Nsp14_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "IMPDH2",
+    "target": "IMPDH2:Nsp14_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "Raffinose_simple_molecule",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "Stachyose_simple_molecule",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "GLA",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "Lactose_simple_molecule",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "NADP_simple_molecule",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "GLB1",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "LCT",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "Melibiose_simple_molecule",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "GLA:Nsp14_complex",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "Migalastat_drug",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "AKR1B1",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "Galacitol_simple_molecule",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "H2O_simple_molecule_cell",
+    "target": "D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "GALM",
+    "target": "_alpha_-D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "D-Galactose_simple_molecule",
+    "target": "_alpha_-D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "ATP_simple_molecule",
+    "target": "_alpha_-D-Galactose-1P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "GALK1",
+    "target": "_alpha_-D-Galactose-1P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "_alpha_-D-Galactose_simple_molecule",
+    "target": "_alpha_-D-Galactose-1P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "NME7",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "ADK",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "NRK1",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "Deoxyadenosine_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "GUK1",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "dGMP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "GALK1",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "_alpha_-D-Galactose_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "AK7",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "Deamino-NAD_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "L-Aspartate_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "AMP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "Glycine_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "NADK",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "GMP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "AK8",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "Adenosine_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "NAPRT1",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "dGDP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "NME5",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "Nicotinate_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "PAICS",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "NME3",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "NADSYN1",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "Nucleoside diphosphate kinase_complex_cell",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "ATP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "dAMP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "NME6",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "PFAS",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "GDP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "DCK",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "dADP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "Deoxyguanosine_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "NAD_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "AK5",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "N-Ribosyl-nicotinamide_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "GART",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "H2O_simple_molecule_cell",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "AK1",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "GALE",
+    "target": "UDP-_alpha_-D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "UDP-_alpha_-D-Glucose_simple_molecule",
+    "target": "UDP-_alpha_-D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "GALT",
+    "target": "UDP-_alpha_-D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "_alpha_-D-Galactose-1P_simple_molecule",
+    "target": "UDP-_alpha_-D-Galactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "UDP-_alpha_-D-Glucose_simple_molecule",
+    "target": "_alpha_-D-Glucose-1-P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "GALT",
+    "target": "_alpha_-D-Glucose-1-P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "PPi_simple_molecule",
+    "target": "_alpha_-D-Glucose-1-P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "UGP2",
+    "target": "_alpha_-D-Glucose-1-P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "_alpha_-D-Galactose-1P_simple_molecule",
+    "target": "_alpha_-D-Glucose-1-P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "UDP-_alpha_-D-Glucose_simple_molecule",
+    "target": "UTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "UGP2",
+    "target": "UTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "PPi_simple_molecule",
+    "target": "UTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "HPRT1",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "ITPA",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "APRT",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "NMNAT1",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "GMPS",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "Hypoxanthine_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "QPRT",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "PPAT",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "Nicotinate_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "dGTP_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "ATP_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "NAMPT",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "NMNAT3",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "Quinolinate_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "Guanine_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "Nicotinate D-ribonucleotide_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "H_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "Nicotinamide_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "XMP_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "ENPP3",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "Adenine_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "ENPP1",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "NAPRT1",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "H2O_simple_molecule_cell",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "NMNAT2",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "_alpha_-D-Glucose_simple_molecule",
+    "target": "Lactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "lactose synthetase_complex",
+    "target": "Lactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "UDP-_alpha_-D-Galactose_simple_molecule",
+    "target": "Lactose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "GLA",
+    "target": "_alpha_-D-Glucose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "Lactose_simple_molecule",
+    "target": "_alpha_-D-Glucose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "GLA:Nsp14_complex",
+    "target": "_alpha_-D-Glucose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "GLB1",
+    "target": "_alpha_-D-Glucose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "LCT",
+    "target": "_alpha_-D-Glucose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "Melibiose_simple_molecule",
+    "target": "_alpha_-D-Glucose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "Migalastat_drug",
+    "target": "_alpha_-D-Glucose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "H2O_simple_molecule_cell",
+    "target": "_alpha_-D-Glucose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "_alpha_-D-Glucose_simple_molecule",
+    "target": "UDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "lactose synthetase_complex",
+    "target": "UDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "UDP-_alpha_-D-Galactose_simple_molecule",
+    "target": "UDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "GDP_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "1-(5'-Phosphoribosyl)-5-formamido-4-imidazolecarboxamide_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "ADP_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "ribonucleoside reductase_complex_cell",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "ATIC",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "Thioredoxin_simple_molecule",
+    "target": "H2O_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "NADPH_simple_molecule",
+    "target": "NADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "NADK",
+    "target": "NADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t132",
+    "source": "NAD_simple_molecule",
+    "target": "NADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "NNT",
+    "target": "NADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "ATP_simple_molecule",
+    "target": "NADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "IMP_simple_molecule",
+    "target": "NADPH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "NADP_simple_molecule",
+    "target": "NADPH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "Ammonium_simple_molecule",
+    "target": "NADPH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "GMPR",
+    "target": "NADPH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "AKR1B1",
+    "target": "NADPH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "GMPR2",
+    "target": "NADPH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "Galacitol_simple_molecule",
+    "target": "NADPH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t142",
+    "source": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "ENTPD5",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "IMP_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "GMPS",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "Hypoxanthine_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "NRK1",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "ADK",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t151",
+    "source": "Deoxyadenosine_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "Ammonium_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "IMPDH2:Nsp14_complex",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "Ribavirin_drug",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "CANT1",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t157",
+    "source": "Mycophenolic acid_drug",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t158",
+    "source": "GMPR2",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t159",
+    "source": "ENTPD2",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t160",
+    "source": "Merimepodib_drug",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t161",
+    "source": "Deamino-NAD_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t162",
+    "source": "CD38",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t163",
+    "source": "L-Aspartate_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t164",
+    "source": "XMP_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t165",
+    "source": "Glycine_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t166",
+    "source": "ENPP3",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t167",
+    "source": "NADK",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t168",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t169",
+    "source": "IMPDH2",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t170",
+    "source": "GTP_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t171",
+    "source": "ENPP1",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t172",
+    "source": "Adenosine_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t173",
+    "source": "AKR1B1",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t174",
+    "source": "Aminoimidazole ribotide_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t175",
+    "source": "CO2_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t176",
+    "source": "ITPA",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t177",
+    "source": "NTPCR",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t178",
+    "source": "NADP_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t179",
+    "source": "IMPDH1",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t180",
+    "source": "PAICS",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t181",
+    "source": "NADSYN1",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t182",
+    "source": "dGTP_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t183",
+    "source": "ATP_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t184",
+    "source": "Galacitol_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t185",
+    "source": "XDH",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t186",
+    "source": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t187",
+    "source": "PFAS",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t188",
+    "source": "ENTPD4",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t189",
+    "source": "GDP_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t190",
+    "source": "DCK",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t191",
+    "source": "ENTPD6",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t192",
+    "source": "Deoxyguanosine_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t193",
+    "source": "NAD_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t194",
+    "source": "GMPR",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t195",
+    "source": "N-Ribosyl-nicotinamide_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t196",
+    "source": "10-Formyltetrahydrofolate_simple_molecule",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t197",
+    "source": "GART",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t198",
+    "source": "H2O_simple_molecule_cell",
+    "target": "H_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t199",
+    "source": "Stachyose_simple_molecule",
+    "target": "Raffinose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t200",
+    "source": "GLA",
+    "target": "Raffinose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t201",
+    "source": "Migalastat_drug",
+    "target": "Raffinose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t202",
+    "source": "GLA:Nsp14_complex",
+    "target": "Raffinose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t203",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Raffinose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t204",
+    "source": "Raffinose_simple_molecule",
+    "target": "Sucrose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t205",
+    "source": "GLA",
+    "target": "Sucrose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t206",
+    "source": "GLA:Nsp14_complex",
+    "target": "Sucrose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t207",
+    "source": "Migalastat_drug",
+    "target": "Sucrose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t208",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Sucrose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t209",
+    "source": "CD38",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t210",
+    "source": "H2O_simple_molecule_mitochondrion",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t211",
+    "source": "NADP_simple_molecule",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t212",
+    "source": "SIRT5:Nsp14_complex",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t213",
+    "source": "Pi_simple_molecule",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t214",
+    "source": "NAD_simple_molecule",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t215",
+    "source": "Histone N6-acetyl-L-lysine_simple_molecule",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t216",
+    "source": "SIRT5",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t217",
+    "source": "Nicotinate_simple_molecule",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t218",
+    "source": "N-Ribosyl-nicotinamide_simple_molecule",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t219",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t220",
+    "source": "PNP",
+    "target": "Nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t221",
+    "source": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "target": "N-Ribosyl-nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t222",
+    "source": "H2O_simple_molecule_cell",
+    "target": "N-Ribosyl-nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t223",
+    "source": "NT5E",
+    "target": "N-Ribosyl-nicotinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t224",
+    "source": "Nicotinamide_simple_molecule",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t225",
+    "source": "ENPP3",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t226",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t227",
+    "source": "NRK1",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t228",
+    "source": "NAD_simple_molecule",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t229",
+    "source": "ENPP1",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t230",
+    "source": "N-Ribosyl-nicotinamide_simple_molecule",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t231",
+    "source": "ATP_simple_molecule",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t232",
+    "source": "NAMPT",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t233",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t234",
+    "source": "Deamino-NAD_simple_molecule",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t235",
+    "source": "H_simple_molecule",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t236",
+    "source": "NMNAT1",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t237",
+    "source": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t238",
+    "source": "NMNAT3",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t239",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t240",
+    "source": "NADSYN1",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t241",
+    "source": "ATP_simple_molecule",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t242",
+    "source": "H2O_simple_molecule_cell",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t243",
+    "source": "NMNAT2",
+    "target": "NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t244",
+    "source": "Nicotinate D-ribonucleotide_simple_molecule",
+    "target": "Deamino-NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t245",
+    "source": "H_simple_molecule",
+    "target": "Deamino-NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t246",
+    "source": "NMNAT1",
+    "target": "Deamino-NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t247",
+    "source": "ATP_simple_molecule",
+    "target": "Deamino-NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t248",
+    "source": "NMNAT3",
+    "target": "Deamino-NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t249",
+    "source": "NMNAT2",
+    "target": "Deamino-NAD_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t250",
+    "source": "H_simple_molecule",
+    "target": "Nicotinate D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t251",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "Nicotinate D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t252",
+    "source": "QPRT",
+    "target": "Nicotinate D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t253",
+    "source": "Nicotinate_simple_molecule",
+    "target": "Nicotinate D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t254",
+    "source": "NAPRT1",
+    "target": "Nicotinate D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t255",
+    "source": "ATP_simple_molecule",
+    "target": "Nicotinate D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t256",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Nicotinate D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t257",
+    "source": "Quinolinate_simple_molecule",
+    "target": "Nicotinate D-ribonucleotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t258",
+    "source": "Merimepodib_drug",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t259",
+    "source": "NADPH_simple_molecule",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t260",
+    "source": "IMP_simple_molecule",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t261",
+    "source": "Hypoxanthine_simple_molecule",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t262",
+    "source": "NAD_simple_molecule",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t263",
+    "source": "IMPDH2",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t264",
+    "source": "IMPDH1",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t265",
+    "source": "IMPDH2:Nsp14_complex",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t266",
+    "source": "NNT",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t267",
+    "source": "Ribavirin_drug",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t268",
+    "source": "Mycophenolic acid_drug",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t269",
+    "source": "XDH",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t270",
+    "source": "H2O_simple_molecule_cell",
+    "target": "NADH_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t271",
+    "source": "PFAS",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t272",
+    "source": "Deamino-NAD_simple_molecule",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t273",
+    "source": "XMP_simple_molecule",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t274",
+    "source": "GMPS",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t275",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t276",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t277",
+    "source": "PPAT",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t278",
+    "source": "NADSYN1",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t279",
+    "source": "ATP_simple_molecule",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t280",
+    "source": "H2O_simple_molecule_cell",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t281",
+    "source": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "target": "L-Glutamate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t282",
+    "source": "APRT",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t283",
+    "source": "PRPS1L1",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t284",
+    "source": "GMPS",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t285",
+    "source": "ADK",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t286",
+    "source": "D-Ribose 5P_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t287",
+    "source": "ATP_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t288",
+    "source": "XMP_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t289",
+    "source": "ENPP3",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t290",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t291",
+    "source": "Adenine_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t292",
+    "source": "NAD_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t293",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t294",
+    "source": "ENPP1",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t295",
+    "source": "Adenosine_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t296",
+    "source": "PRPS1",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t297",
+    "source": "PRPS2",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t298",
+    "source": "H2O_simple_molecule_cell",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t299",
+    "source": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t300",
+    "source": "ENTPD5",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t301",
+    "source": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t302",
+    "source": "IMP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t303",
+    "source": "Hypoxanthine_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t304",
+    "source": "NT5E",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t305",
+    "source": "CANT1",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t306",
+    "source": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t307",
+    "source": "ENTPD2",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t308",
+    "source": "L-Aspartate_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t309",
+    "source": "2-deoxy-_alpha_-D-ribose 1-phosphate_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t310",
+    "source": "XMP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t311",
+    "source": "AMP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t312",
+    "source": "Glycine_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t313",
+    "source": "Nicotinamide D-ribonucleotide_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t314",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t315",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t316",
+    "source": "GMP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t317",
+    "source": "GTP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t318",
+    "source": "NAPRT1",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t319",
+    "source": "NTPCR",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t320",
+    "source": "Nicotinate_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t321",
+    "source": "PAICS",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t322",
+    "source": "ATP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t323",
+    "source": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t324",
+    "source": "PNP",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t325",
+    "source": "PFAS",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t326",
+    "source": "ENTPD4",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t327",
+    "source": "GDP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t328",
+    "source": "ENTPD6",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t329",
+    "source": "GART",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t330",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t331",
+    "source": "NADP_simple_molecule",
+    "target": "nicotinate-adenine dinucleotide phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t332",
+    "source": "CD38",
+    "target": "nicotinate-adenine dinucleotide phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t333",
+    "source": "Nicotinate_simple_molecule",
+    "target": "nicotinate-adenine dinucleotide phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t334",
+    "source": "PRPS1L1",
+    "target": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t335",
+    "source": "D-Ribose 5P_simple_molecule",
+    "target": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t336",
+    "source": "PRPS1",
+    "target": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t337",
+    "source": "ATP_simple_molecule",
+    "target": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t338",
+    "source": "PRPS2",
+    "target": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t339",
+    "source": "Xanthosine_simple_molecule",
+    "target": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t340",
+    "source": "Guanosine_simple_molecule",
+    "target": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t341",
+    "source": "Pi_simple_molecule",
+    "target": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t342",
+    "source": "Inosine_simple_molecule",
+    "target": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t343",
+    "source": "N-Ribosyl-nicotinamide_simple_molecule",
+    "target": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t344",
+    "source": "Adenosine_simple_molecule",
+    "target": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t345",
+    "source": "PNP",
+    "target": "_alpha_-D-Ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t346",
+    "source": "H2O_simple_molecule_mitochondrion",
+    "target": "Histone-L-lysine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t347",
+    "source": "SIRT5:Nsp14_complex",
+    "target": "Histone-L-lysine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t348",
+    "source": "Histone N6-acetyl-L-lysine_simple_molecule",
+    "target": "Histone-L-lysine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t349",
+    "source": "NAD_simple_molecule",
+    "target": "Histone-L-lysine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t350",
+    "source": "SIRT5",
+    "target": "Histone-L-lysine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t351",
+    "source": "H2O_simple_molecule_mitochondrion",
+    "target": "O-Acetyl-ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t352",
+    "source": "SIRT5:Nsp14_complex",
+    "target": "O-Acetyl-ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t353",
+    "source": "Histone N6-acetyl-L-lysine_simple_molecule",
+    "target": "O-Acetyl-ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t354",
+    "source": "NAD_simple_molecule",
+    "target": "O-Acetyl-ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t355",
+    "source": "SIRT5",
+    "target": "O-Acetyl-ADP-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t356",
+    "source": "CD38",
+    "target": "ADP-D-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t357",
+    "source": "H2O_simple_molecule_cell",
+    "target": "ADP-D-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t358",
+    "source": "NAD_simple_molecule",
+    "target": "ADP-D-ribose_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t359",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t360",
+    "source": "H_simple_molecule",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t361",
+    "source": "Quinolinate_simple_molecule",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t362",
+    "source": "QPRT",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t363",
+    "source": "_alpha_D-Ribose 1P_simple_molecule",
+    "target": "D-Ribose 5P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t364",
+    "source": "PGM2",
+    "target": "D-Ribose 5P_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t365",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t366",
+    "source": "H2O_simple_molecule_cell",
+    "target": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t367",
+    "source": "PPAT",
+    "target": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t368",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t369",
+    "source": "Glycine_simple_molecule",
+    "target": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t370",
+    "source": "ATP_simple_molecule",
+    "target": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t371",
+    "source": "GART",
+    "target": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t372",
+    "source": "5-phospho-beta-D-ribosylamine_simple_molecule",
+    "target": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t373",
+    "source": "GART",
+    "target": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t374",
+    "source": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "target": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t375",
+    "source": "10-Formyltetrahydrofolate_simple_molecule",
+    "target": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t376",
+    "source": "5-phospho-beta-D-ribosylglycinamide_simple_molecule",
+    "target": "Tetrahydrofolate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t377",
+    "source": "GART",
+    "target": "Tetrahydrofolate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t378",
+    "source": "10-Formyltetrahydrofolate_simple_molecule",
+    "target": "Tetrahydrofolate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t379",
+    "source": "ATIC",
+    "target": "Tetrahydrofolate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t380",
+    "source": "1-(5'-Phosphoribosyl)-5-amino-4-imidazolecarboxamide_simple_molecule",
+    "target": "Tetrahydrofolate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t381",
+    "source": "PFAS",
+    "target": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t382",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t383",
+    "source": "ATP_simple_molecule",
+    "target": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t384",
+    "source": "H2O_simple_molecule_cell",
+    "target": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t385",
+    "source": "5-phosphoribosyl-N-formylglycinamide_simple_molecule",
+    "target": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t386",
+    "source": "ATP_simple_molecule",
+    "target": "Aminoimidazole ribotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t387",
+    "source": "GART",
+    "target": "Aminoimidazole ribotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t388",
+    "source": "2-(Formamido)-N1-(5'-phosphoribosyl)acetamidine_simple_molecule",
+    "target": "Aminoimidazole ribotide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t389",
+    "source": "Aminoimidazole ribotide_simple_molecule",
+    "target": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t390",
+    "source": "CO2_simple_molecule",
+    "target": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t391",
+    "source": "PAICS",
+    "target": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t392",
+    "source": "ATP_simple_molecule",
+    "target": "1-(5'-Phosphoribosyl)-5-amino-4-(N-succinocarboxamide)-imidazole_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t393",
+    "source": "L-Aspartate_simple_molecule",
+    "target": "1-(5'-Phosphoribosyl)-5-amino-4-(N-succinocarboxamide)-imidazole_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t394",
+    "source": "PAICS",
+    "target": "1-(5'-Phosphoribosyl)-5-amino-4-(N-succinocarboxamide)-imidazole_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t395",
+    "source": "1-(5-Phospho-D-ribosyl)-5-amino-4-imidazolecarboxylate_simple_molecule",
+    "target": "1-(5'-Phosphoribosyl)-5-amino-4-(N-succinocarboxamide)-imidazole_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t396",
+    "source": "1-(5'-Phosphoribosyl)-5-amino-4-(N-succinocarboxamide)-imidazole_simple_molecule",
+    "target": "1-(5'-Phosphoribosyl)-5-amino-4-imidazolecarboxamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t397",
+    "source": "ADSL",
+    "target": "1-(5'-Phosphoribosyl)-5-amino-4-imidazolecarboxamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t398",
+    "source": "1-(5'-Phosphoribosyl)-5-amino-4-(N-succinocarboxamide)-imidazole_simple_molecule",
+    "target": "Fumarate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t399",
+    "source": "ADSL",
+    "target": "Fumarate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t400",
+    "source": "ATIC",
+    "target": "1-(5'-Phosphoribosyl)-5-formamido-4-imidazolecarboxamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t401",
+    "source": "1-(5'-Phosphoribosyl)-5-amino-4-imidazolecarboxamide_simple_molecule",
+    "target": "1-(5'-Phosphoribosyl)-5-formamido-4-imidazolecarboxamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t402",
+    "source": "10-Formyltetrahydrofolate_simple_molecule",
+    "target": "1-(5'-Phosphoribosyl)-5-formamido-4-imidazolecarboxamide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t403",
+    "source": "HPRT1",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t404",
+    "source": "H_simple_molecule",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t405",
+    "source": "AMP_simple_molecule",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t406",
+    "source": "1-(5'-Phosphoribosyl)-5-formamido-4-imidazolecarboxamide_simple_molecule",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t407",
+    "source": "Hypoxanthine_simple_molecule",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t408",
+    "source": "AMPD1",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t409",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t410",
+    "source": "AMPD3",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t411",
+    "source": "ATIC",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t412",
+    "source": "H2O_simple_molecule_cell",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t413",
+    "source": "AMDP2",
+    "target": "IMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t414",
+    "source": "Merimepodib_drug",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t415",
+    "source": "IMP_simple_molecule",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t416",
+    "source": "NAD_simple_molecule",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t417",
+    "source": "IMPDH2",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t418",
+    "source": "IMPDH1",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t419",
+    "source": "IMPDH2:Nsp14_complex",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t420",
+    "source": "Ribavirin_drug",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t421",
+    "source": "Mycophenolic acid_drug",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t422",
+    "source": "H2O_simple_molecule_cell",
+    "target": "XMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t423",
+    "source": "HPRT1",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t424",
+    "source": "ENTPD5",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t425",
+    "source": "IMP_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t426",
+    "source": "GMPS",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t427",
+    "source": "NADP_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t428",
+    "source": "Ammonium_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t429",
+    "source": "CANT1",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t430",
+    "source": "GMPR2",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t431",
+    "source": "ATP_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t432",
+    "source": "Guanine_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t433",
+    "source": "ENTPD2",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t434",
+    "source": "ENTPD4",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t435",
+    "source": "GDP_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t436",
+    "source": "XMP_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t437",
+    "source": "ENTPD6",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t438",
+    "source": "5-phospho-_alpha_-D-ribose 1-diphosphate_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t439",
+    "source": "L-Glutamine_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t440",
+    "source": "GTP_simple_molecule",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t441",
+    "source": "GMPR",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t442",
+    "source": "H2O_simple_molecule_cell",
+    "target": "GMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t443",
+    "source": "ENTPD2",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t444",
+    "source": "NTPCR",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t445",
+    "source": "GTP_simple_molecule",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t446",
+    "source": "GMP_simple_molecule",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t447",
+    "source": "ATP_simple_molecule",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t448",
+    "source": "GUK1",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t449",
+    "source": "H2O_simple_molecule_cell",
+    "target": "GDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t450",
+    "source": "GDP_simple_molecule",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t451",
+    "source": "NME5",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t452",
+    "source": "NME7",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t453",
+    "source": "NME3",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t454",
+    "source": "Nucleoside diphosphate kinase_complex_cell",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t455",
+    "source": "ATP_simple_molecule",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t456",
+    "source": "NME6",
+    "target": "GTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t457",
+    "source": "GDP_simple_molecule",
+    "target": "dGDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t458",
+    "source": "ribonucleoside reductase_complex_cell",
+    "target": "dGDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t459",
+    "source": "ATP_simple_molecule",
+    "target": "dGDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t460",
+    "source": "Thioredoxin_simple_molecule",
+    "target": "dGDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t461",
+    "source": "GUK1",
+    "target": "dGDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t462",
+    "source": "dGMP_simple_molecule",
+    "target": "dGDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t463",
+    "source": "GDP_simple_molecule",
+    "target": "Thioredoxin disulfide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t464",
+    "source": "ADP_simple_molecule",
+    "target": "Thioredoxin disulfide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t465",
+    "source": "Thioredoxin_simple_molecule",
+    "target": "Thioredoxin disulfide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t466",
+    "source": "ribonucleoside reductase_complex_cell",
+    "target": "Thioredoxin disulfide_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t467",
+    "source": "NME5",
+    "target": "dGTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t468",
+    "source": "NME7",
+    "target": "dGTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t469",
+    "source": "NME3",
+    "target": "dGTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t470",
+    "source": "Nucleoside diphosphate kinase_complex_cell",
+    "target": "dGTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t471",
+    "source": "ATP_simple_molecule",
+    "target": "dGTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t472",
+    "source": "dGDP_simple_molecule",
+    "target": "dGTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t473",
+    "source": "NME6",
+    "target": "dGTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t474",
+    "source": "DCK",
+    "target": "dGMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t475",
+    "source": "ITPA",
+    "target": "dGMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t476",
+    "source": "ENPP3",
+    "target": "dGMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t477",
+    "source": "Deoxyguanosine_simple_molecule",
+    "target": "dGMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t478",
+    "source": "ENPP1",
+    "target": "dGMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t479",
+    "source": "dGTP_simple_molecule",
+    "target": "dGMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t480",
+    "source": "ATP_simple_molecule",
+    "target": "dGMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t481",
+    "source": "H2O_simple_molecule_cell",
+    "target": "dGMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t482",
+    "source": "Guanosine_simple_molecule",
+    "target": "Guanine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t483",
+    "source": "Deoxyguanosine_simple_molecule",
+    "target": "Guanine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t484",
+    "source": "Pi_simple_molecule",
+    "target": "Guanine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t485",
+    "source": "PNP",
+    "target": "Guanine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t486",
+    "source": "GMP_simple_molecule",
+    "target": "Guanosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t487",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Guanosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t488",
+    "source": "NT5E",
+    "target": "Guanosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t489",
+    "source": "Deoxyguanosine_simple_molecule",
+    "target": "2-deoxy-_alpha_-D-ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t490",
+    "source": "Pi_simple_molecule",
+    "target": "2-deoxy-_alpha_-D-ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t491",
+    "source": "PNP",
+    "target": "2-deoxy-_alpha_-D-ribose 1-phosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t492",
+    "source": "Guanine_simple_molecule",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t493",
+    "source": "GDA",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t494",
+    "source": "H_simple_molecule",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t495",
+    "source": "AMP_simple_molecule",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t496",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t497",
+    "source": "AMPD1",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t498",
+    "source": "Deoxyadenosine_simple_molecule",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t499",
+    "source": "Adenosine_simple_molecule",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t500",
+    "source": "AMPD3",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t501",
+    "source": "AMDP2",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t502",
+    "source": "ADA",
+    "target": "Ammonium_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t503",
+    "source": "XMP_simple_molecule",
+    "target": "Xanthosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t504",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Xanthosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t505",
+    "source": "NT5E",
+    "target": "Xanthosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t506",
+    "source": "Xanthosine_simple_molecule",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t507",
+    "source": "Guanine_simple_molecule",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t508",
+    "source": "GDA",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t509",
+    "source": "H_simple_molecule",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t510",
+    "source": "Hypoxanthine_simple_molecule",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t511",
+    "source": "Pi_simple_molecule",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t512",
+    "source": "NAD_simple_molecule",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t513",
+    "source": "XDH",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t514",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t515",
+    "source": "PNP",
+    "target": "Xanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t516",
+    "source": "H_simple_molecule",
+    "target": "Inosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t517",
+    "source": "IMP_simple_molecule",
+    "target": "Inosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t518",
+    "source": "NT5E",
+    "target": "Inosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t519",
+    "source": "Adenosine_simple_molecule",
+    "target": "Inosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t520",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Inosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t521",
+    "source": "ADA",
+    "target": "Inosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t522",
+    "source": "Inosine_simple_molecule",
+    "target": "Hypoxanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t523",
+    "source": "Pi_simple_molecule",
+    "target": "Hypoxanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t524",
+    "source": "PNP",
+    "target": "Hypoxanthine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t525",
+    "source": "AMP_simple_molecule",
+    "target": "Adenosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t526",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Adenosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t527",
+    "source": "NT5E",
+    "target": "Adenosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t528",
+    "source": "Adenosine_simple_molecule",
+    "target": "Adenine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t529",
+    "source": "Pi_simple_molecule",
+    "target": "Adenine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t530",
+    "source": "PNP",
+    "target": "Adenine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t531",
+    "source": "2-deoxy-_alpha_-D-ribose 1-phosphate_simple_molecule",
+    "target": "Deoxyinosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t532",
+    "source": "H_simple_molecule",
+    "target": "Deoxyinosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t533",
+    "source": "Hypoxanthine_simple_molecule",
+    "target": "Deoxyinosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t534",
+    "source": "Deoxyadenosine_simple_molecule",
+    "target": "Deoxyinosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t535",
+    "source": "H2O_simple_molecule_cell",
+    "target": "Deoxyinosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t536",
+    "source": "ADA",
+    "target": "Deoxyinosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t537",
+    "source": "PNP",
+    "target": "Deoxyinosine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t538",
+    "source": "ATP_simple_molecule",
+    "target": "dAMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t539",
+    "source": "DCK",
+    "target": "dAMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t540",
+    "source": "Deoxyadenosine_simple_molecule",
+    "target": "dAMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t541",
+    "source": "dAMP_simple_molecule",
+    "target": "dADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t542",
+    "source": "AK5",
+    "target": "dADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t543",
+    "source": "ADP_simple_molecule",
+    "target": "dADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t544",
+    "source": "ribonucleoside reductase_complex_cell",
+    "target": "dADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t545",
+    "source": "ATP_simple_molecule",
+    "target": "dADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t546",
+    "source": "Thioredoxin_simple_molecule",
+    "target": "dADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t547",
+    "source": "NME5",
+    "target": "dATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t548",
+    "source": "dADP_simple_molecule",
+    "target": "dATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t549",
+    "source": "NME7",
+    "target": "dATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t550",
+    "source": "NME3",
+    "target": "dATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t551",
+    "source": "Nucleoside diphosphate kinase_complex_cell",
+    "target": "dATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t552",
+    "source": "ATP_simple_molecule",
+    "target": "dATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t553",
+    "source": "NME6",
+    "target": "dATP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t554",
+    "source": "IMPDH2",
+    "target": "Guanine nucleotide synthesis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t555",
+    "source": "SIRT5",
+    "target": "Urea cycle_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp4_Nsp6.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp4_Nsp6.json
new file mode 100644
index 000000000..a3c212243
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp4_Nsp6.json
@@ -0,0 +1,1094 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "Nsp3",
+    "name": "Nsp3",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {
+      "property": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6",
+    "name": "Nsp6",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {
+      "property": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4_cell",
+    "name": "Nsp4_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:BCD58761",
+      "property1": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp3:Nsp4:Nsp6_complex",
+    "name": "Nsp3:Nsp4:Nsp6_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "29128390"
+     },
+     "context": {
+      "property": "taxonomy:694009"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ALG11_endoplasmic reticulum",
+    "name": "ALG11_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "20080937"
+     },
+     "context": {
+      "property": "uniprot:Q2TAA5"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "Nsp4_ALG11_complex_endoplasmic reticulum",
+    "name": "Nsp4_ALG11_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "20080937"
+     },
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "Nsp4:IDE_complex_cell",
+    "name": "Nsp4:IDE_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4_IDE_complex",
+    "name": "Nsp4_IDE_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNAJC11",
+    "name": "DNAJC11",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "25997101"
+     },
+     "context": {
+      "property": "uniprot:Q9NVH1"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4:DNAJC11_complex",
+    "name": "Nsp4:DNAJC11_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "25997101"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F-ATPase_complex_mitochondrial matrix",
+    "name": "F-ATPase_complex_mitochondrial matrix",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O75964"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "F-ATPase:Nsp6_complex",
+    "name": "F-ATPase:Nsp6_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "name": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4:NUP210_complex_nucleus",
+    "name": "Nsp4:NUP210_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "14517331"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP210_endoplasmic reticulum",
+    "name": "NUP210_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8TEM1"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Several drugs_drug",
+    "name": "Several drugs_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1_endoplasmic reticulum",
+    "name": "SIGMAR1_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10406945"
+     },
+     "context": {
+      "property": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1:Drugs_complex",
+    "name": "SIGMAR1:Drugs_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "name": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6:SIGMAR1_complex_nucleus",
+    "name": "Nsp6:SIGMAR1_complex_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "name": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-ATPase:Nsp6_complex_endosome",
+    "name": "V-ATPase:Nsp6_complex_endosome",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q15904"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4_mitochondrion",
+    "name": "Nsp4_mitochondrion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:BCD58761",
+      "property1": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TIM complex_complex",
+    "name": "TIM complex_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TIM complex:Nsp4_complex",
+    "name": "TIM complex:Nsp4_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-ATPase_complex_endoplasmic reticulum",
+    "name": "V-ATPase_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP5MG",
+    "name": "ATP5MG",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:O75964"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-type_space_proton_space_ATPase_complex",
+    "name": "V-type_space_proton_space_ATPase_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0046611"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP6AP1",
+    "name": "ATP6AP1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "27231034"
+     },
+     "context": {
+      "property": "uniprot:Q15904"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Selinexor_drug",
+    "name": "Selinexor_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP210:Selinexor_complex",
+    "name": "NUP210:Selinexor_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP13A3",
+    "name": "ATP13A3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:Q9H7F0"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "P-ATPase_complex_cell",
+    "name": "P-ATPase_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "P-ATPase:Nsp6_complex",
+    "name": "P-ATPase:Nsp6_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4:IDE_complex_cell",
+    "name": "Nsp4:IDE_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "10116"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC6A15",
+    "name": "SLC6A15",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {
+      "property": "uniprot:Q8IY34"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC6A15:Nsp6_complex",
+    "name": "SLC6A15:Nsp6_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9c",
+    "name": "Orf9c",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC6A15:Orf9c_complex",
+    "name": "SLC6A15:Orf9c_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M",
+    "name": "M",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC6A15:M_complex",
+    "name": "SLC6A15:M_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Loratadine_drug",
+    "name": "Loratadine_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "123134323"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SLC6A15:Loratadine_complex",
+    "name": "SLC6A15:Loratadine_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-ATPase_complex_endosome",
+    "name": "V-ATPase_complex_endosome",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Bafilomycin A1_drug",
+    "name": "Bafilomycin A1_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP6AP1:Bafilomycin A1_complex",
+    "name": "ATP6AP1:Bafilomycin A1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDE_cell",
+    "name": "IDE_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {
+      "property": "uniprot:P14735"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6:SIGMAR1_complex_cell",
+    "name": "Nsp6:SIGMAR1_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10406945"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4 (-)_rna",
+    "name": "Nsp4 (-)_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4 (+)_rna",
+    "name": "Nsp4 (+)_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6 (-)_rna",
+    "name": "Nsp6 (-)_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6 (+)_rna",
+    "name": "Nsp6 (+)_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDE_human host",
+    "name": "IDE_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp3 (-)_rna",
+    "name": "Nsp3 (-)_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp3 (+)_rna",
+    "name": "Nsp3 (+)_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Plasma membrane organization_phenotype",
+    "name": "Plasma membrane organization_phenotype",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "23943763"
+     },
+     "context": {
+      "property": "GO:0007009",
+      "property1": "taxonomy:694009"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TOM complex_complex",
+    "name": "TOM complex_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP210_nucleus",
+    "name": "NUP210_nucleus",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8TEM1"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDE_cell",
+    "name": "IDE_cell",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "10116"
+     },
+     "context": {
+      "property": "uniprot:P14735"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1_nucleus",
+    "name": "SIGMAR1_nucleus",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10406945"
+     },
+     "context": {
+      "property": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1_cell",
+    "name": "SIGMAR1_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10406945"
+     },
+     "context": {
+      "property": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion",
+    "name": "H+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378",
+      "property1": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "Nsp3",
+    "target": "Nsp3:Nsp4:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "Nsp4_cell",
+    "target": "Nsp3:Nsp4:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "Nsp6",
+    "target": "Nsp3:Nsp4:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "ALG11_endoplasmic reticulum",
+    "target": "Nsp4_ALG11_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "Nsp4_cell",
+    "target": "Nsp4_ALG11_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "Nsp4:IDE_complex_cell",
+    "target": "Nsp4_IDE_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "Nsp4_cell",
+    "target": "Nsp4:DNAJC11_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "DNAJC11",
+    "target": "Nsp4:DNAJC11_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "Nsp6",
+    "target": "F-ATPase:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "F-ATPase_complex_mitochondrial matrix",
+    "target": "F-ATPase:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "target": "Nsp4:NUP210_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "NUP210_endoplasmic reticulum",
+    "target": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "Nsp4_cell",
+    "target": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "Several drugs_drug",
+    "target": "SIGMAR1:Drugs_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "SIGMAR1:Drugs_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "target": "Nsp6:SIGMAR1_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "target": "V-ATPase:Nsp6_complex_endosome",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "Nsp4_mitochondrion",
+    "target": "TIM complex:Nsp4_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "TIM complex_complex",
+    "target": "TIM complex:Nsp4_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "Nsp6",
+    "target": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "V-ATPase_complex_endoplasmic reticulum",
+    "target": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "ATP5MG",
+    "target": "F-ATPase_complex_mitochondrial matrix",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "V-type_space_proton_space_ATPase_complex",
+    "target": "V-ATPase_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "ATP6AP1",
+    "target": "V-ATPase_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "NUP210_endoplasmic reticulum",
+    "target": "NUP210:Selinexor_complex",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "Selinexor_drug",
+    "target": "NUP210:Selinexor_complex",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "ATP13A3",
+    "target": "P-ATPase_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "Nsp6",
+    "target": "P-ATPase:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "P-ATPase_complex_cell",
+    "target": "P-ATPase:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "Nsp4:IDE_complex_cell",
+    "target": "Nsp4:IDE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "SLC6A15",
+    "target": "SLC6A15:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "Nsp6",
+    "target": "SLC6A15:Nsp6_complex",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "SLC6A15",
+    "target": "SLC6A15:Orf9c_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "Orf9c",
+    "target": "SLC6A15:Orf9c_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "SLC6A15",
+    "target": "SLC6A15:M_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "M",
+    "target": "SLC6A15:M_complex",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "SLC6A15",
+    "target": "SLC6A15:Loratadine_complex",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "Loratadine_drug",
+    "target": "SLC6A15:Loratadine_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "V-ATPase_complex_endoplasmic reticulum",
+    "target": "V-ATPase_complex_endosome",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "Bafilomycin A1_drug",
+    "target": "ATP6AP1:Bafilomycin A1_complex",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "ATP6AP1",
+    "target": "ATP6AP1:Bafilomycin A1_complex",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "Nsp6",
+    "target": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "Nsp4_cell",
+    "target": "Nsp4:IDE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "IDE_cell",
+    "target": "Nsp4:IDE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "target": "Nsp6:SIGMAR1_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "Nsp4 (-)_rna",
+    "target": "Nsp4 (+)_rna",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "Nsp4 (+)_rna",
+    "target": "Nsp4_cell",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "Nsp6 (-)_rna",
+    "target": "Nsp6 (+)_rna",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "Nsp6 (+)_rna",
+    "target": "Nsp6",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "IDE_cell",
+    "target": "IDE_human host",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "Nsp3 (-)_rna",
+    "target": "Nsp3 (+)_rna",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "Nsp3 (+)_rna",
+    "target": "Nsp3",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "Nsp3:Nsp4:Nsp6_complex",
+    "target": "Plasma membrane organization_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "Nsp4_cell",
+    "target": "Nsp4_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "TOM complex_complex",
+    "target": "Nsp4_mitochondrion",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "Nsp6 (+)_rna",
+    "target": "Nsp6 (-)_rna",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "Nsp3 (+)_rna",
+    "target": "Nsp3 (-)_rna",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "Nsp4 (+)_rna",
+    "target": "Nsp4 (-)_rna",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "NUP210_endoplasmic reticulum",
+    "target": "NUP210_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "IDE_cell",
+    "target": "IDE_cell",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "SIGMAR1_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "SIGMAR1_cell",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "V-type_space_proton_space_ATPase_complex",
+    "target": "H+_ion",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp9_protein.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp9_protein.json
new file mode 100644
index 000000000..b59365516
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Nsp9_protein.json
@@ -0,0 +1,4070 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "Nsp9_cell",
+    "name": "Nsp9_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:YP_009725305"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fibrillin_complex_human host",
+    "name": "Fibrillin_complex_human host",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "8702639"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FBLN5",
+    "name": "FBLN5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PLG",
+    "name": "PLG",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fibrillincomp_complex",
+    "name": "Fibrillincomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nuclear Pore_complex",
+    "name": "Nuclear Pore_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32296183"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nuclear Pore comp_complex",
+    "name": "Nuclear Pore comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MIB1",
+    "name": "MIB1",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "24185901"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DLL1",
+    "name": "DLL1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MIBcomp_complex",
+    "name": "MIBcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "21985982"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Vpr",
+    "name": "Vpr",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPS_complex_nucleus",
+    "name": "COPS_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16045761"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPS_complex_nucleus",
+    "name": "COPS_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "22190034"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SCARB1",
+    "name": "SCARB1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Phosphatidyl serine_simple_molecule",
+    "name": "Phosphatidyl serine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "lipidcomp_complex",
+    "name": "lipidcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16530182"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAT1A",
+    "name": "MAT1A",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S-Adenosylmethionine_drug",
+    "name": "S-Adenosylmethionine_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SAdComp_complex",
+    "name": "SAdComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "11301045"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nup2_complex",
+    "name": "nup2_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "9049309"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nup1_complex",
+    "name": "nup1_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "12196509"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EXOSC2",
+    "name": "EXOSC2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp8",
+    "name": "Nsp8",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:YP_009725304"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EXOSC3",
+    "name": "EXOSC3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EXOSC5",
+    "name": "EXOSC5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EXOSC8",
+    "name": "EXOSC8",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EXOCcomp_complex",
+    "name": "EXOCcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "28514442"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp9_nucleus",
+    "name": "Nsp9_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:YP_009725305"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GTF2F2",
+    "name": "GTF2F2",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10428810"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "gtf2f2comp_complex",
+    "name": "gtf2f2comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDN1-homo_complex_human host",
+    "name": "EDN1-homo_complex_human host",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17678888"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDNRA",
+    "name": "EDNRA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDN1-homo_complex_cell",
+    "name": "EDN1-homo_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "7509919"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mibcomp_complex",
+    "name": "mibcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDN1-homo_complex_nucleus",
+    "name": "EDN1-homo_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "28514442"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZNF503",
+    "name": "ZNF503",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "znfcomp_complex",
+    "name": "znfcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp7",
+    "name": "Nsp7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp12",
+    "name": "Nsp12",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp7812_complex_cell",
+    "name": "Nsp7812_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.03.16.993386"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RdRpassembled_rna",
+    "name": "RdRpassembled_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "remdesivir _drug",
+    "name": "remdesivir _drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "favipiravir_drug",
+    "name": "favipiravir_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32620147"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp7812_complex_cell",
+    "name": "Nsp7812_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1126/science.abc1560"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP54",
+    "name": "NUP54",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP58",
+    "name": "NUP58",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP62",
+    "name": "NUP62",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP214",
+    "name": "NUP214",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP88",
+    "name": "NUP88",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "30543681"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAG6",
+    "name": "BAG6",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDN1-homo_complex_nucleus",
+    "name": "EDN1-homo_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16169070"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEK9",
+    "name": "NEK9",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEK7",
+    "name": "NEK7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEK6",
+    "name": "NEK6",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEKs_complex",
+    "name": "NEKs_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "28514442"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GTF2B",
+    "name": "GTF2B",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "POLR2A",
+    "name": "POLR2A",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "POLR2B",
+    "name": "POLR2B",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "POLR2E",
+    "name": "POLR2E",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "POLR2G",
+    "name": "POLR2G",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "gtfrnapoly_complex",
+    "name": "gtfrnapoly_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "26344197"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDN1-homo_complex_nucleus",
+    "name": "EDN1-homo_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16713569"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDN1-homo_complex_endoplasmic reticulum",
+    "name": "EDN1-homo_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16713569"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDN1",
+    "name": "EDN1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF4H",
+    "name": "EIF4H",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10585411"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "eifcomp_complex",
+    "name": "eifcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPS2",
+    "name": "COPS2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPS4",
+    "name": "COPS4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPS5",
+    "name": "COPS5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPS6",
+    "name": "COPS6",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPS7A",
+    "name": "COPS7A",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COPS8",
+    "name": "COPS8",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UBQLN4",
+    "name": "UBQLN4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAT",
+    "name": "TAT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAT-HIV_complex",
+    "name": "TAT-HIV_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "8934526"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DCAF7",
+    "name": "DCAF7",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16887337"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dcafcomp_complex",
+    "name": "dcafcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SPART",
+    "name": "SPART",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AIFM1",
+    "name": "AIFM1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SPARTcomp_complex",
+    "name": "SPARTcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19765186"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp10_cell",
+    "name": "Nsp10_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp16",
+    "name": "Nsp16",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEMF",
+    "name": "NEMF",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp14_cell",
+    "name": "Nsp14_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pathogen_complex",
+    "name": "pathogen_complex",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.03.31.019216"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CA12",
+    "name": "CA12",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Hydrochlorothiazide_drug",
+    "name": "Hydrochlorothiazide_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HCTcomp_complex",
+    "name": "HCTcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19119014"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FOCAD",
+    "name": "FOCAD",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FOCADcomp_complex",
+    "name": "FOCADcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.06.17.156455"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "spartcomp_complex",
+    "name": "spartcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "homodimer_complex",
+    "name": "homodimer_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19153232"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ssRNAoligo_rna",
+    "name": "ssRNAoligo_rna",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19153232"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RNArecognition_complex",
+    "name": "RNArecognition_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19153232"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAT2B",
+    "name": "MAT2B",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10644686"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "mat2bcomp_complex",
+    "name": "mat2bcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAT2A",
+    "name": "MAT2A",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SAdComp2_complex",
+    "name": "SAdComp2_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "11596649"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PTGS2",
+    "name": "PTGS2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Rofecoxib_drug",
+    "name": "Rofecoxib_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PTGScomp_complex",
+    "name": "PTGScomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "20724158"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RHOA",
+    "name": "RHOA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RHOA7comp_complex",
+    "name": "RHOA7comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAT_complex",
+    "name": "MAT_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "12671891"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PCSK1",
+    "name": "PCSK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEC1_complex",
+    "name": "NEC1_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "25544563"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Flavin adenine dinucleotide_drug",
+    "name": "Flavin adenine dinucleotide_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AIFMFlaComp_complex",
+    "name": "AIFMFlaComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10592235"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Sitaxentan_drug",
+    "name": "Sitaxentan_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDNRASitaComp_complex",
+    "name": "EDNRASitaComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17472992"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ambrisentan_drug",
+    "name": "Ambrisentan_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDNRAmbComp_complex",
+    "name": "EDNRAmbComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "20811346"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Acetylsalicylic acid_drug",
+    "name": "Acetylsalicylic acid_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDNRAcetComp_complex",
+    "name": "EDNRAcetComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10727528"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Macitentan_drug",
+    "name": "Macitentan_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDNRMacComp_complex",
+    "name": "EDNRMacComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "22458347"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SEPSECS",
+    "name": "SEPSECS",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pyridoxal phosphate_simple_molecule",
+    "name": "Pyridoxal phosphate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SPcomp_complex",
+    "name": "SPcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17194211"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MYCBP2",
+    "name": "MYCBP2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MYCBPcomp_complex",
+    "name": "MYCBPcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SBNO1",
+    "name": "SBNO1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SBNOcomp_complex",
+    "name": "SBNOcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BCKDK",
+    "name": "BCKDK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "s389_complex",
+    "name": "s389_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP_simple_molecule",
+    "name": "ADP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADPcomp_complex",
+    "name": "ADPcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17016423"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dcafznf_complex",
+    "name": "dcafznf_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "27705803"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RBM41",
+    "name": "RBM41",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RBMcomp_complex",
+    "name": "RBMcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZNF318",
+    "name": "ZNF318",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZNFcomp_complex",
+    "name": "ZNFcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LARP4B ",
+    "name": "LARP4B ",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LARPcomp_complex",
+    "name": "LARPcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SRP54",
+    "name": "SRP54",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SRP19",
+    "name": "SRP19",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SRP54comp_complex",
+    "name": "SRP54comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZC3H7A ",
+    "name": "ZC3H7A ",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZC3H7Acomp_complex",
+    "name": "ZC3H7Acomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Insulin",
+    "name": "Insulin",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NECINsComp_complex",
+    "name": "NECINsComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17016423"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SCARB1_complex",
+    "name": "SCARB1_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CA12comp_complex",
+    "name": "CA12comp_complex",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.06.17.156455"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Zonisamide_drug",
+    "name": "Zonisamide_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZonisamideComp_complex",
+    "name": "ZonisamideComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19703035"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ellagic Acid_drug",
+    "name": "Ellagic Acid_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EAcomp_complex",
+    "name": "EAcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "20185318"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Hydroflumethiazide_drug",
+    "name": "Hydroflumethiazide_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HFTcomp_complex",
+    "name": "HFTcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19119014"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Benzthiazide_drug",
+    "name": "Benzthiazide_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BZcomp_complex",
+    "name": "BZcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19119014"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP2A2",
+    "name": "AP2A2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP2A2comp_complex",
+    "name": "AP2A2comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ELN",
+    "name": "ELN",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Fibrillin_complex_human host",
+    "name": "Fibrillin_complex_human host",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10544250"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RofecoxibComp_complex",
+    "name": "RofecoxibComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16679386"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NspComp_complex",
+    "name": "NspComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32296183"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENV",
+    "name": "ENV",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NECENVComp_complex",
+    "name": "NECENVComp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "8940009"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CYB5R3",
+    "name": "CYB5R3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADH_simple_molecule",
+    "name": "NADH_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NADHcomp_complex",
+    "name": "NADHcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17341833"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CYB5R3comp_complex",
+    "name": "CYB5R3comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FAD_simple_molecule",
+    "name": "FAD_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FADcomp_complex",
+    "name": "FADcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17016423"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COMT",
+    "name": "COMT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "COMT_complex",
+    "name": "COMT_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RALA",
+    "name": "RALA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GDP_simple_molecule",
+    "name": "GDP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GDPcomp_complex",
+    "name": "GDPcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10592235"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RALAcomp_complex",
+    "name": "RALAcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Tolcapone_drug",
+    "name": "Tolcapone_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TCcomp_complex",
+    "name": "TCcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "20502133"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Entacapone_drug",
+    "name": "Entacapone_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NCcomp_complex",
+    "name": "NCcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "12876237"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "3,5-Dinitrocatechol_drug",
+    "name": "3,5-Dinitrocatechol_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DCcomp_complex",
+    "name": "DCcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17016423"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ademetionine_drug",
+    "name": "Ademetionine_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACcomp_complex",
+    "name": "ACcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "20196537"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(3,4-DIHYDROXY-2-NITROPHENYL)(PHENYL)METHANONE_drug",
+    "name": "(3,4-DIHYDROXY-2-NITROPHENYL)(PHENYL)METHANONE_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNCcomp_complex",
+    "name": "DNCcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10592235"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "2-Methoxyestradiol_drug",
+    "name": "2-Methoxyestradiol_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MCcomp_complex",
+    "name": "MCcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "1170911"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RAB7A",
+    "name": "RAB7A",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RAB7comp_complex",
+    "name": "RAB7comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RGcomp_complex_cell",
+    "name": "RGcomp_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10592235"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIRT5",
+    "name": "SIRT5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Suramin_drug",
+    "name": "Suramin_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SScomp_complex",
+    "name": "SScomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17355872"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RGcomp_complex_cell",
+    "name": "RGcomp_complex_cell",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17016423"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nek9comp_complex",
+    "name": "nek9comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MPHOSPH10",
+    "name": "MPHOSPH10",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MPHOSPHcomp_complex",
+    "name": "MPHOSPHcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACSL3",
+    "name": "ACSL3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACSLcomp_complex",
+    "name": "ACSLcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IMPDH2",
+    "name": "IMPDH2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mercaptopurine_drug",
+    "name": "Mercaptopurine_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IMercomp_complex",
+    "name": "IMercomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "18506437"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRPS5",
+    "name": "MRPS5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRPS2",
+    "name": "MRPS2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRPScomp_complex",
+    "name": "MRPScomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ribavirin_drug",
+    "name": "Ribavirin_drug",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1016/S0140-6736(20)31042-4"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRcomp_complex",
+    "name": "IRcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17139284"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LOXL1",
+    "name": "LOXL1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LOXcomp_complex",
+    "name": "LOXcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "14745449"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SEPSECScomp_complex",
+    "name": "SEPSECScomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NOL10",
+    "name": "NOL10",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NOL10comp_complex",
+    "name": "NOL10comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SRP72",
+    "name": "SRP72",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SRP72comp_complex",
+    "name": "SRP72comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NARS2",
+    "name": "NARS2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Asparagine_simple_molecule",
+    "name": "L-Asparagine_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLcomp_complex",
+    "name": "NLcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "16753178"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIRT5comp_complex",
+    "name": "SIRT5comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AATF",
+    "name": "AATF",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AATFcomp_complex",
+    "name": "AATFcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp14_nucleus",
+    "name": "Nsp14_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "INPDH2comp_complex",
+    "name": "INPDH2comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDX10",
+    "name": "DDX10",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDX10comp_complex",
+    "name": "DDX10comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TCF12",
+    "name": "TCF12",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TCFcomp_complex",
+    "name": "TCFcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp10_nucleus",
+    "name": "Nsp10_nucleus",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERGIC1",
+    "name": "ERGIC1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ERGIC1comp_complex",
+    "name": "ERGIC1comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GFER",
+    "name": "GFER",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GFERcomp_complex",
+    "name": "GFERcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FGCOMP_complex",
+    "name": "FGCOMP_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "10592235"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP2M1",
+    "name": "AP2M1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP2M1comp_complex",
+    "name": "AP2M1comp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mycophenolic acid_drug",
+    "name": "Mycophenolic acid_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17496727"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IMcomp_complex",
+    "name": "IMcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "17496727"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NGDN",
+    "name": "NGDN",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NGDNcomp_complex",
+    "name": "NGDNcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CCDC86",
+    "name": "CCDC86",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CCDCcomp_complex",
+    "name": "CCDCcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MEPCE",
+    "name": "MEPCE",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LARP7",
+    "name": "LARP7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MEPCEcomp_complex",
+    "name": "MEPCEcomp_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "29845934"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NARS2comp_complex",
+    "name": "NARS2comp_complex",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.03.31.019216"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZNF250",
+    "name": "ZNF250",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZNF250comp_complex",
+    "name": "ZNF250comp_complex",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.06.17.156455"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PEG10",
+    "name": "PEG10",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PEG10comp_complex",
+    "name": "PEG10comp_complex",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1101/2020.06.17.156455"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EDN1_rna",
+    "name": "EDN1_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbigene:1906"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "virus_replication_phenotype",
+    "name": "virus_replication_phenotype",
+    "grounding": {
+     "identifiers": {
+      "doi": "10.1126/science.abc1560"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Neutrophil_activation_phenotype",
+    "name": "Neutrophil_activation_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Mycophenolate mofetil_drug",
+    "name": "Mycophenolate mofetil_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PLAT",
+    "name": "PLAT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nafamostat_drug",
+    "name": "Nafamostat_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32620147"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "Fibrillin_complex_human host",
+    "target": "Fibrillincomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "Nsp9_cell",
+    "target": "Fibrillincomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "PLG",
+    "target": "Fibrillincomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "FBLN5",
+    "target": "Fibrillincomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "Nsp9_cell",
+    "target": "Nuclear Pore comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "Nuclear Pore_complex",
+    "target": "Nuclear Pore comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "DLL1",
+    "target": "MIBcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "MIB1",
+    "target": "MIBcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "COPS_complex_nucleus",
+    "target": "COPS_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "Vpr",
+    "target": "COPS_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "SCARB1",
+    "target": "lipidcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "Phosphatidyl serine_simple_molecule",
+    "target": "lipidcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "MAT1A",
+    "target": "SAdComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "S-Adenosylmethionine_drug",
+    "target": "SAdComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "nup2_complex",
+    "target": "Nuclear Pore_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "nup1_complex",
+    "target": "Nuclear Pore_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "EXOSC5",
+    "target": "EXOCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "EXOSC8",
+    "target": "EXOCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "EXOSC3",
+    "target": "EXOCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "Nsp8",
+    "target": "EXOCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "EXOSC2",
+    "target": "EXOCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "GTF2F2",
+    "target": "gtf2f2comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "Nsp9_nucleus",
+    "target": "gtf2f2comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "EDN1-homo_complex_human host",
+    "target": "EDN1-homo_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "EDNRA",
+    "target": "EDN1-homo_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "Nsp9_cell",
+    "target": "mibcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "MIB1",
+    "target": "mibcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "EDN1-homo_complex_nucleus",
+    "target": "EDN1-homo_complex_human host",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "ZNF503",
+    "target": "znfcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "Nsp9_nucleus",
+    "target": "znfcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "Nsp7",
+    "target": "Nsp7812_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "Nsp12",
+    "target": "Nsp7812_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "Nsp8",
+    "target": "Nsp7812_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "remdesivir _drug",
+    "target": "Nsp7812_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "favipiravir_drug",
+    "target": "Nsp7812_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "Nsp7812_complex_cell",
+    "target": "Nsp7812_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "RdRpassembled_rna",
+    "target": "Nsp7812_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "NUP62",
+    "target": "nup1_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "NUP54",
+    "target": "nup1_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "NUP58",
+    "target": "nup1_complex",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "NUP88",
+    "target": "nup2_complex",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "NUP214",
+    "target": "nup2_complex",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "BAG6",
+    "target": "EDN1-homo_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "EDN1-homo_complex_nucleus",
+    "target": "EDN1-homo_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "NEK6",
+    "target": "NEKs_complex",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "NEK9",
+    "target": "NEKs_complex",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "NEK7",
+    "target": "NEKs_complex",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "POLR2A",
+    "target": "gtfrnapoly_complex",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "POLR2G",
+    "target": "gtfrnapoly_complex",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "GTF2F2",
+    "target": "gtfrnapoly_complex",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "POLR2E",
+    "target": "gtfrnapoly_complex",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "POLR2B",
+    "target": "gtfrnapoly_complex",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "GTF2B",
+    "target": "gtfrnapoly_complex",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "EDN1-homo_complex_nucleus",
+    "target": "EDN1-homo_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "EDN1",
+    "target": "EDN1-homo_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "EIF4H",
+    "target": "eifcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "Nsp9_nucleus",
+    "target": "eifcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "COPS6",
+    "target": "COPS_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "COPS2",
+    "target": "COPS_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "COPS4",
+    "target": "COPS_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "COPS5",
+    "target": "COPS_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "COPS7A",
+    "target": "COPS_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "COPS8",
+    "target": "COPS_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "EDN1-homo_complex_nucleus",
+    "target": "EDN1-homo_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "COPS6",
+    "target": "EDN1-homo_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "EDN1-homo_complex_nucleus",
+    "target": "EDN1-homo_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "UBQLN4",
+    "target": "EDN1-homo_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "EDN1-homo_complex_nucleus",
+    "target": "EDN1-homo_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "GTF2F2",
+    "target": "TAT-HIV_complex",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "TAT",
+    "target": "TAT-HIV_complex",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "DCAF7",
+    "target": "dcafcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "Nsp9_nucleus",
+    "target": "dcafcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "SPART",
+    "target": "SPARTcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "AIFM1",
+    "target": "SPARTcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "Nsp16",
+    "target": "pathogen_complex",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "Nsp14_cell",
+    "target": "pathogen_complex",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "Nsp9_cell",
+    "target": "pathogen_complex",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "Nsp10_cell",
+    "target": "pathogen_complex",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "NEMF",
+    "target": "pathogen_complex",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "Hydrochlorothiazide_drug",
+    "target": "HCTcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "CA12",
+    "target": "HCTcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "Nsp7",
+    "target": "FOCADcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "Nsp8",
+    "target": "FOCADcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "FOCAD",
+    "target": "FOCADcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "Nsp9_cell",
+    "target": "spartcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "SPART",
+    "target": "spartcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "ssRNAoligo_rna",
+    "target": "RNArecognition_complex",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "homodimer_complex",
+    "target": "RNArecognition_complex",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "Nsp9_cell",
+    "target": "mat2bcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "MAT2B",
+    "target": "mat2bcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "S-Adenosylmethionine_drug",
+    "target": "SAdComp2_complex",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "MAT2A",
+    "target": "SAdComp2_complex",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "PTGS2",
+    "target": "PTGScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "Rofecoxib_drug",
+    "target": "PTGScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "RHOA",
+    "target": "RHOA7comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "Nsp7",
+    "target": "RHOA7comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "MAT1A",
+    "target": "MAT_complex",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "MAT2B",
+    "target": "MAT_complex",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "MAT2A",
+    "target": "MAT_complex",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "PCSK1",
+    "target": "NEC1_complex",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "MAT2B",
+    "target": "NEC1_complex",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "AIFM1",
+    "target": "AIFMFlaComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "Flavin adenine dinucleotide_drug",
+    "target": "AIFMFlaComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "EDNRA",
+    "target": "EDNRASitaComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "Sitaxentan_drug",
+    "target": "EDNRASitaComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "Ambrisentan_drug",
+    "target": "EDNRAmbComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "EDNRA",
+    "target": "EDNRAmbComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "Acetylsalicylic acid_drug",
+    "target": "EDNRAcetComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "EDNRA",
+    "target": "EDNRAcetComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "EDNRA",
+    "target": "EDNRMacComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "Macitentan_drug",
+    "target": "EDNRMacComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "SEPSECS",
+    "target": "SPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "Pyridoxal phosphate_simple_molecule",
+    "target": "SPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "Nsp12",
+    "target": "MYCBPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "MYCBP2",
+    "target": "MYCBPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "Nsp12",
+    "target": "SBNOcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "SBNO1",
+    "target": "SBNOcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "BCKDK",
+    "target": "s389_complex",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "Nsp12",
+    "target": "s389_complex",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "BCKDK",
+    "target": "ADPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "ADP_simple_molecule",
+    "target": "ADPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "ZNF503",
+    "target": "dcafznf_complex",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "DCAF7",
+    "target": "dcafznf_complex",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "RBM41",
+    "target": "RBMcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "Nsp12",
+    "target": "RBMcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "Nsp12",
+    "target": "ZNFcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "ZNF318",
+    "target": "ZNFcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "LARP4B ",
+    "target": "LARPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "Nsp12",
+    "target": "LARPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "Nsp8",
+    "target": "SRP54comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "SRP54",
+    "target": "SRP54comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t132",
+    "source": "SRP19",
+    "target": "SRP54comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "Nsp12",
+    "target": "ZC3H7Acomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "ZC3H7A ",
+    "target": "ZC3H7Acomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "PCSK1",
+    "target": "NECINsComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "Insulin",
+    "target": "NECINsComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "SCARB1",
+    "target": "SCARB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "Nsp7",
+    "target": "SCARB1_complex",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "Nsp7",
+    "target": "CA12comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "CA12",
+    "target": "CA12comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "Zonisamide_drug",
+    "target": "ZonisamideComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t142",
+    "source": "CA12",
+    "target": "ZonisamideComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "CA12",
+    "target": "EAcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "Ellagic Acid_drug",
+    "target": "EAcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "Hydroflumethiazide_drug",
+    "target": "HFTcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "CA12",
+    "target": "HFTcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "Benzthiazide_drug",
+    "target": "BZcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "CA12",
+    "target": "BZcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "Nsp10_cell",
+    "target": "AP2A2comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "AP2A2",
+    "target": "AP2A2comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t151",
+    "source": "PLG",
+    "target": "Fibrillin_complex_human host",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "ELN",
+    "target": "Fibrillin_complex_human host",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "Fibrillin_complex_human host",
+    "target": "Fibrillin_complex_human host",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "Rofecoxib_drug",
+    "target": "RofecoxibComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "ELN",
+    "target": "RofecoxibComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "Nsp9_cell",
+    "target": "NspComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t157",
+    "source": "Nsp8",
+    "target": "NspComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t158",
+    "source": "PCSK1",
+    "target": "NECENVComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t159",
+    "source": "ENV",
+    "target": "NECENVComp_complex",
+    "sign": true
+   },
+   {
+    "id": "t160",
+    "source": "CYB5R3",
+    "target": "NADHcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t161",
+    "source": "NADH_simple_molecule",
+    "target": "NADHcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t162",
+    "source": "CYB5R3",
+    "target": "CYB5R3comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t163",
+    "source": "Nsp7",
+    "target": "CYB5R3comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t164",
+    "source": "CYB5R3",
+    "target": "FADcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t165",
+    "source": "FAD_simple_molecule",
+    "target": "FADcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t166",
+    "source": "Nsp7",
+    "target": "COMT_complex",
+    "sign": true
+   },
+   {
+    "id": "t167",
+    "source": "COMT",
+    "target": "COMT_complex",
+    "sign": true
+   },
+   {
+    "id": "t168",
+    "source": "RALA",
+    "target": "GDPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t169",
+    "source": "GDP_simple_molecule",
+    "target": "GDPcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t170",
+    "source": "RALA",
+    "target": "RALAcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t171",
+    "source": "Nsp7",
+    "target": "RALAcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t172",
+    "source": "Tolcapone_drug",
+    "target": "TCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t173",
+    "source": "COMT",
+    "target": "TCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t174",
+    "source": "COMT",
+    "target": "NCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t175",
+    "source": "Entacapone_drug",
+    "target": "NCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t176",
+    "source": "COMT",
+    "target": "DCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t177",
+    "source": "3,5-Dinitrocatechol_drug",
+    "target": "DCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t178",
+    "source": "COMT",
+    "target": "ACcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t179",
+    "source": "Ademetionine_drug",
+    "target": "ACcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t180",
+    "source": "COMT",
+    "target": "DNCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t181",
+    "source": "(3,4-DIHYDROXY-2-NITROPHENYL)(PHENYL)METHANONE_drug",
+    "target": "DNCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t182",
+    "source": "2-Methoxyestradiol_drug",
+    "target": "MCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t183",
+    "source": "COMT",
+    "target": "MCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t184",
+    "source": "RAB7A",
+    "target": "RAB7comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t185",
+    "source": "Nsp7",
+    "target": "RAB7comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t186",
+    "source": "RAB7A",
+    "target": "RGcomp_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t187",
+    "source": "GDP_simple_molecule",
+    "target": "RGcomp_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t188",
+    "source": "SIRT5",
+    "target": "SScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t189",
+    "source": "Suramin_drug",
+    "target": "SScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t190",
+    "source": "RHOA",
+    "target": "RGcomp_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t191",
+    "source": "GDP_simple_molecule",
+    "target": "RGcomp_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t192",
+    "source": "NEK9",
+    "target": "nek9comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t193",
+    "source": "Nsp9_nucleus",
+    "target": "nek9comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t194",
+    "source": "MPHOSPH10",
+    "target": "MPHOSPHcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t195",
+    "source": "Nsp8",
+    "target": "MPHOSPHcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t196",
+    "source": "ACSL3",
+    "target": "ACSLcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t197",
+    "source": "Nsp7",
+    "target": "ACSLcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t198",
+    "source": "Mercaptopurine_drug",
+    "target": "IMercomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t199",
+    "source": "IMPDH2",
+    "target": "IMercomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t200",
+    "source": "Nsp8",
+    "target": "MRPScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t201",
+    "source": "MRPS2",
+    "target": "MRPScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t202",
+    "source": "MRPS5",
+    "target": "MRPScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t203",
+    "source": "Ribavirin_drug",
+    "target": "IRcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t204",
+    "source": "IMPDH2",
+    "target": "IRcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t205",
+    "source": "FBLN5",
+    "target": "LOXcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t206",
+    "source": "PLG",
+    "target": "LOXcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t207",
+    "source": "LOXL1",
+    "target": "LOXcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t208",
+    "source": "SEPSECS",
+    "target": "SEPSECScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t209",
+    "source": "Nsp8",
+    "target": "SEPSECScomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t210",
+    "source": "Nsp8",
+    "target": "NOL10comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t211",
+    "source": "NOL10",
+    "target": "NOL10comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t212",
+    "source": "Nsp7",
+    "target": "SRP72comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t213",
+    "source": "SRP72",
+    "target": "SRP72comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t214",
+    "source": "L-Asparagine_simple_molecule",
+    "target": "NLcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t215",
+    "source": "NARS2",
+    "target": "NLcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t216",
+    "source": "SIRT5",
+    "target": "SIRT5comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t217",
+    "source": "Nsp14_cell",
+    "target": "SIRT5comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t218",
+    "source": "AATF",
+    "target": "AATFcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t219",
+    "source": "Nsp8",
+    "target": "AATFcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t220",
+    "source": "Nsp14_nucleus",
+    "target": "INPDH2comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t221",
+    "source": "IMPDH2",
+    "target": "INPDH2comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t222",
+    "source": "Nsp8",
+    "target": "DDX10comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t223",
+    "source": "DDX10",
+    "target": "DDX10comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t224",
+    "source": "Nsp12",
+    "target": "TCFcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t225",
+    "source": "TCF12",
+    "target": "TCFcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t226",
+    "source": "ERGIC1",
+    "target": "ERGIC1comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t227",
+    "source": "Nsp10_nucleus",
+    "target": "ERGIC1comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t228",
+    "source": "GFER",
+    "target": "GFERcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t229",
+    "source": "Nsp10_cell",
+    "target": "GFERcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t230",
+    "source": "FAD_simple_molecule",
+    "target": "FGCOMP_complex",
+    "sign": true
+   },
+   {
+    "id": "t231",
+    "source": "GFER",
+    "target": "FGCOMP_complex",
+    "sign": true
+   },
+   {
+    "id": "t232",
+    "source": "AP2M1",
+    "target": "AP2M1comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t233",
+    "source": "Nsp10_cell",
+    "target": "AP2M1comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t234",
+    "source": "Mycophenolic acid_drug",
+    "target": "IMcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t235",
+    "source": "IMPDH2",
+    "target": "IMcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t236",
+    "source": "NGDN",
+    "target": "NGDNcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t237",
+    "source": "Nsp8",
+    "target": "NGDNcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t238",
+    "source": "Nsp8",
+    "target": "CCDCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t239",
+    "source": "CCDC86",
+    "target": "CCDCcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t240",
+    "source": "Nsp8",
+    "target": "MEPCEcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t241",
+    "source": "LARP7",
+    "target": "MEPCEcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t242",
+    "source": "MEPCE",
+    "target": "MEPCEcomp_complex",
+    "sign": true
+   },
+   {
+    "id": "t243",
+    "source": "Nsp9_cell",
+    "target": "homodimer_complex",
+    "sign": true
+   },
+   {
+    "id": "t244",
+    "source": "Nsp8",
+    "target": "NARS2comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t245",
+    "source": "NARS2",
+    "target": "NARS2comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t246",
+    "source": "Nsp14_nucleus",
+    "target": "ZNF250comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t247",
+    "source": "ZNF250",
+    "target": "ZNF250comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t248",
+    "source": "PEG10",
+    "target": "PEG10comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t249",
+    "source": "Nsp14_cell",
+    "target": "PEG10comp_complex",
+    "sign": true
+   },
+   {
+    "id": "t250",
+    "source": "EDN1_rna",
+    "target": "EDN1",
+    "sign": true
+   },
+   {
+    "id": "t251",
+    "source": "DCAF7",
+    "target": "EDN1_rna",
+    "sign": true
+   },
+   {
+    "id": "t252",
+    "source": "Nsp7812_complex_cell",
+    "target": "virus_replication_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t253",
+    "source": "pathogen_complex",
+    "target": "Neutrophil_activation_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t254",
+    "source": "Mycophenolate mofetil_drug",
+    "target": "Mycophenolic acid_drug",
+    "sign": true
+   },
+   {
+    "id": "t255",
+    "source": "Nafamostat_drug",
+    "target": "PLG",
+    "sign": true
+   },
+   {
+    "id": "t256",
+    "source": "PLAT",
+    "target": "PLG",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Orf10_Cul2_pathway.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Orf10_Cul2_pathway.json
new file mode 100644
index 000000000..071d3ab6b
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Orf10_Cul2_pathway.json
@@ -0,0 +1,1242 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "name": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:Orf10_complex",
+    "name": "Cul2 ubiquitin ligase:Orf10_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8_complex",
+    "name": "Cul2 ubiquitin ligase:N8_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CSN5_complex",
+    "name": "CSN5_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Zyg11B:EloBC_complex",
+    "name": "Zyg11B:EloBC_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Rbx1:Cul2_complex",
+    "name": "Rbx1:Cul2_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase_complex",
+    "name": "Cul2 ubiquitin ligase_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ELOB:ELOC_complex",
+    "name": "ELOB:ELOC_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZYG11B",
+    "name": "ZYG11B",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:25820"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:Orf10:substrate_complex",
+    "name": "Cul2 ubiquitin ligase:Orf10:substrate_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:Orf10_complex",
+    "name": "Cul2 ubiquitin ligase:N8:Orf10_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf10",
+    "name": "Orf10",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:BCD58762"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ubit_traget",
+    "name": "ubit_traget",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ELOB",
+    "name": "ELOB",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:11619"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ELOC",
+    "name": "ELOC",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:11617"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAE_complex",
+    "name": "NAE_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pevonedistat_drug",
+    "name": "Pevonedistat_drug",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "145535"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAE:Pevonedistat_complex",
+    "name": "NAE:Pevonedistat_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEDD8",
+    "name": "NEDD8",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:7732"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAE:NEDD8_complex",
+    "name": "NAE:NEDD8_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RBX1",
+    "name": "RBX1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:9928"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CUL2",
+    "name": "CUL2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:2552"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:Orf10:E2-Ub:substrate_complex",
+    "name": "Cul2 ubiquitin ligase:N8:Orf10:E2-Ub:substrate_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:Orf10:E2:substrate-Ub_complex",
+    "name": "Cul2 ubiquitin ligase:N8:Orf10:E2:substrate-Ub_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:E2:substrate_complex",
+    "name": "Cul2 ubiquitin ligase:N8:E2:substrate_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:E2-Ub:substrate_complex",
+    "name": "Cul2 ubiquitin ligase:N8:E2-Ub:substrate_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UBE2M:NEDD8_complex",
+    "name": "UBE2M:NEDD8_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:E2:substrate-Ub_complex",
+    "name": "Cul2 ubiquitin ligase:N8:E2:substrate-Ub_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E2_ubiquitinated",
+    "name": "E2_ubiquitinated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:UBE2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:substrate-Ub_complex",
+    "name": "Cul2 ubiquitin ligase:N8:substrate-Ub_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E2",
+    "name": "E2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:UBE2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:Orf10:substrate-Ub_complex",
+    "name": "Cul2 ubiquitin ligase:N8:Orf10:substrate-Ub_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:Orf10:substrate_complex",
+    "name": "Cul2 ubiquitin ligase:N8:Orf10:substrate_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Cul2 ubiquitin ligase:N8:Orf10:0E2:substrate_complex",
+    "name": "Cul2 ubiquitin ligase:N8:Orf10:0E2:substrate_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UBE2M",
+    "name": "UBE2M",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:12491"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAE1",
+    "name": "NAE1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:621"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UBA3",
+    "name": "UBA3",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:12470"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ELOB_rna",
+    "name": "ELOB_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "11619"
+     },
+     "context": {
+      "property": "HGNC:11619"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ELOC_rna",
+    "name": "ELOC_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "11617"
+     },
+     "context": {
+      "property": "HGNC:11617"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ZYG11B_rna",
+    "name": "ZYG11B_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "25820"
+     },
+     "context": {
+      "property": "HGNC:25820"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RBX1_rna",
+    "name": "RBX1_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "9928"
+     },
+     "context": {
+      "property": "HGNC:9928"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CUL2_rna",
+    "name": "CUL2_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "2552"
+     },
+     "context": {
+      "property": "HGNC:2552"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E1_ubiquitinated",
+    "name": "E1_ubiquitinated",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:UBA"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E1_rna",
+    "name": "E1_rna",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "UBA"
+     },
+     "context": {
+      "property": "hgnc:UBA"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E1",
+    "name": "E1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:UBA"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E2_rna",
+    "name": "E2_rna",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "UBE2"
+     },
+     "context": {
+      "property": "hgnc:UBE2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DUB_rna",
+    "name": "DUB_rna",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "DUB"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DUB",
+    "name": "DUB",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:DUB"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ub_simple_molecule",
+    "name": "Ub_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_simple_molecule",
+    "name": "ATP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AMP_simple_molecule",
+    "name": "AMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPi_simple_molecule",
+    "name": "PPi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf10 (+)ss sgmRNA_rna",
+    "name": "Orf10 (+)ss sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "ncbiprotein:BCD58762"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UBE2M_rna",
+    "name": "UBE2M_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "12491"
+     },
+     "context": {
+      "property": "HGNC:12491"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ubit_traget_ubiquitinated",
+    "name": "ubit_traget_ubiquitinated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEDD8_rna",
+    "name": "NEDD8_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "7732"
+     },
+     "context": {
+      "property": "HGNC:7732"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NAE1_rna",
+    "name": "NAE1_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "621"
+     },
+     "context": {
+      "property": "HGNC:621"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UBA3_rna",
+    "name": "UBA3_rna",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "12470"
+     },
+     "context": {
+      "property": "HGNC:12470"
+     }
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "Cul2 ubiquitin ligase:Orf10_complex",
+    "target": "Cul2 ubiquitin ligase_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "Zyg11B:EloBC_complex",
+    "target": "Cul2 ubiquitin ligase_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "Cul2 ubiquitin ligase:N8_complex",
+    "target": "Cul2 ubiquitin ligase_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "Rbx1:Cul2_complex",
+    "target": "Cul2 ubiquitin ligase_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "target": "Cul2 ubiquitin ligase_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "CSN5_complex",
+    "target": "Cul2 ubiquitin ligase_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "ELOB:ELOC_complex",
+    "target": "Zyg11B:EloBC_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "Cul2 ubiquitin ligase_complex",
+    "target": "Zyg11B:EloBC_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "ZYG11B",
+    "target": "Zyg11B:EloBC_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "Orf10",
+    "target": "Cul2 ubiquitin ligase:Orf10_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "Cul2 ubiquitin ligase:Orf10:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:Orf10_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "Cul2 ubiquitin ligase_complex",
+    "target": "Cul2 ubiquitin ligase:Orf10_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10_complex",
+    "target": "Cul2 ubiquitin ligase:Orf10_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "CSN5_complex",
+    "target": "Cul2 ubiquitin ligase:Orf10_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "Cul2 ubiquitin ligase_complex",
+    "target": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "ubit_traget",
+    "target": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "ELOB",
+    "target": "ELOB:ELOC_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "Zyg11B:EloBC_complex",
+    "target": "ELOB:ELOC_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "ELOC",
+    "target": "ELOB:ELOC_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "NAE_complex",
+    "target": "NAE:Pevonedistat_complex",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "Pevonedistat_drug",
+    "target": "NAE:Pevonedistat_complex",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "NAE_complex",
+    "target": "NAE:NEDD8_complex",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "NEDD8",
+    "target": "NAE:NEDD8_complex",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "Cul2 ubiquitin ligase_complex",
+    "target": "Rbx1:Cul2_complex",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "RBX1",
+    "target": "Rbx1:Cul2_complex",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "CUL2",
+    "target": "Rbx1:Cul2_complex",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "ubit_traget",
+    "target": "Cul2 ubiquitin ligase:Orf10:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "Cul2 ubiquitin ligase:Orf10_complex",
+    "target": "Cul2 ubiquitin ligase:Orf10:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:E2-Ub:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:E2:substrate-Ub_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "UBE2M:NEDD8_complex",
+    "target": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "Cul2 ubiquitin ligase:N8:E2-Ub:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "Cul2 ubiquitin ligase:N8:E2:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "Cul2 ubiquitin ligase:N8:E2-Ub:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:N8:E2:substrate-Ub_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "E2_ubiquitinated",
+    "target": "Cul2 ubiquitin ligase:N8:E2-Ub:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "target": "Cul2 ubiquitin ligase:N8:E2-Ub:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "Cul2 ubiquitin ligase:N8:E2:substrate-Ub_complex",
+    "target": "Cul2 ubiquitin ligase:N8:substrate-Ub_complex",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "Cul2 ubiquitin ligase:N8:substrate-Ub_complex",
+    "target": "Cul2 ubiquitin ligase:N8_complex",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "E2",
+    "target": "Cul2 ubiquitin ligase:N8:E2:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "target": "Cul2 ubiquitin ligase:N8:E2:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:substrate-Ub_complex",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10_complex",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "E2_ubiquitinated",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:E2-Ub:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:E2-Ub:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "Cul2 ubiquitin ligase:Orf10:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:E2-Ub:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "UBE2M:NEDD8_complex",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:0E2:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:substrate_complex",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:0E2:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "E2",
+    "target": "Cul2 ubiquitin ligase:N8:Orf10:0E2:substrate_complex",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "NAE:NEDD8_complex",
+    "target": "UBE2M:NEDD8_complex",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "UBE2M",
+    "target": "UBE2M:NEDD8_complex",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "NAE:Pevonedistat_complex",
+    "target": "NAE_complex",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "UBA3",
+    "target": "NAE_complex",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "NAE1",
+    "target": "NAE_complex",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "ELOB_rna",
+    "target": "ELOB",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "ELOB:ELOC_complex",
+    "target": "ELOB",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "ELOB:ELOC_complex",
+    "target": "ELOC",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "ELOC_rna",
+    "target": "ELOC",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "ZYG11B_rna",
+    "target": "ZYG11B",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "Zyg11B:EloBC_complex",
+    "target": "ZYG11B",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "RBX1_rna",
+    "target": "RBX1",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "Rbx1:Cul2_complex",
+    "target": "RBX1",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "CUL2_rna",
+    "target": "CUL2",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "Rbx1:Cul2_complex",
+    "target": "CUL2",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "E1_rna",
+    "target": "E1",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "E2",
+    "target": "E1",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "E1_ubiquitinated",
+    "target": "E1",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:0E2:substrate_complex",
+    "target": "E2",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "Cul2 ubiquitin ligase:N8:E2:substrate-Ub_complex",
+    "target": "E2",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "Cul2 ubiquitin ligase:N8:E2:substrate_complex",
+    "target": "E2",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "E2_rna",
+    "target": "E2",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "DUB_rna",
+    "target": "DUB",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "Ub_simple_molecule",
+    "target": "E1_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "ATP_simple_molecule",
+    "target": "E1_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "E1",
+    "target": "E1_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:E2-Ub:substrate_complex",
+    "target": "E2_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "Cul2 ubiquitin ligase:N8:E2-Ub:substrate_complex",
+    "target": "E2_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "E2",
+    "target": "E2_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "E1_ubiquitinated",
+    "target": "E2_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "Ub_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "ATP_simple_molecule",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "E1",
+    "target": "AMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "Ub_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "ATP_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "E1",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "NAE:Pevonedistat_complex",
+    "target": "Pevonedistat_drug",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "Cul2 ubiquitin ligase:Orf10_complex",
+    "target": "Orf10",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "Orf10 (+)ss sgmRNA_rna",
+    "target": "Orf10",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "Cul2 ubiquitin ligase:Orf10:substrate_complex",
+    "target": "UBE2M",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "UBE2M_rna",
+    "target": "UBE2M",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "UBE2M:NEDD8_complex",
+    "target": "UBE2M",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "target": "UBE2M",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "DUB",
+    "target": "ubit_traget",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "Cul2 ubiquitin ligase:Orf10:substrate_complex",
+    "target": "ubit_traget",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "ubit_traget_ubiquitinated",
+    "target": "ubit_traget",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "Cul2 ubiquitin ligase:substrate_complex_cell",
+    "target": "ubit_traget",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "NEDD8_rna",
+    "target": "NEDD8",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "Cul2 ubiquitin ligase:N8:Orf10:substrate-Ub_complex",
+    "target": "ubit_traget_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "Cul2 ubiquitin ligase:N8:substrate-Ub_complex",
+    "target": "ubit_traget_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "NAE1_rna",
+    "target": "NAE1",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "NAE_complex",
+    "target": "NAE1",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "NAE_complex",
+    "target": "UBA3",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "UBA3_rna",
+    "target": "UBA3",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Orf3a.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Orf3a.json
new file mode 100644
index 000000000..fc3e64ea6
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Orf3a.json
@@ -0,0 +1,755 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "Orf3a",
+    "name": "Orf3a",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Hops Complex_complex",
+    "name": "Hops Complex_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "J9TC74"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LPS/TNF \u03b1/IL-1_complex",
+    "name": "LPS/TNF \u03b1/IL-1_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "11916"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKBKG/IKBKB/CHUK_complex",
+    "name": "IKBKG/IKBKB/CHUK_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "1974"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR4",
+    "name": "TLR4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF6",
+    "name": "IRF6",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MYD88",
+    "name": "MYD88",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "7562"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LPS/TLR4/MYD88_complex",
+    "name": "LPS/TLR4/MYD88_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "11850"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E",
+    "name": "E",
+    "grounding": {
+     "identifiers": {
+      "ncbiprotein": "1796318600"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF3",
+    "name": "TRAF3",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12033"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "P65/P015_complex",
+    "name": "P65/P015_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "7794"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF6",
+    "name": "TRAF6",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12036"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM30a/TRIM38_complex",
+    "name": "TRIM30a/TRIM38_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "10059"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TAB2/TAB3/TAK1_complex",
+    "name": "TAB2/TAB3/TAK1_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "17075"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ssRNA_rna",
+    "name": "ssRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR7/8/9_complex",
+    "name": "TLR7/8/9_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "15631"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM14/TRIM23_complex",
+    "name": "TRIM14/TRIM23_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "16283"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM22",
+    "name": "TRIM22",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "16379"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM29",
+    "name": "TRIM29",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "17274"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM27/TRIM21_complex",
+    "name": "TRIM27/TRIM21_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "11312"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NEMO/IKKA/IKKB_complex",
+    "name": "NEMO/IKKA/IKKB_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "1974"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKB1",
+    "name": "NFKB1",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "7794"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKBIA_phosphorylated_ubiquitinated_ubiquitinated_ubiquitinated",
+    "name": "NFKBIA_phosphorylated_ubiquitinated_ubiquitinated_ubiquitinated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "7797"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CACTIN",
+    "name": "CACTIN",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "29938"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKB1:NFKNIA_complex",
+    "name": "NFKB1:NFKNIA_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM59",
+    "name": "TRIM59",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "22588174"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ORF8b",
+    "name": "ORF8b",
+    "grounding": {
+     "identifiers": {
+      "ncbiprotein": "BCD58760"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NLRP3",
+    "name": "NLRP3",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "16400"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PYCARD_ubiquitinated_ubiquitinated_ubiquitinated",
+    "name": "PYCARD_ubiquitinated_ubiquitinated_ubiquitinated",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32172672"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TICAM1",
+    "name": "TICAM1",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "18348"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP1",
+    "name": "CASP1",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "1499"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM23",
+    "name": "TRIM23",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "660"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM38",
+    "name": "TRIM38",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "10059"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR3",
+    "name": "TLR3",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "11849"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BTRC",
+    "name": "BTRC",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "1144"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM9",
+    "name": "TRIM9",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "16288"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM39",
+    "name": "TRIM39",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "10065"
+     },
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "S",
+    "name": "S",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P0DTC2"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SERPINF2",
+    "name": "SERPINF2",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "9075"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1",
+    "name": "IFNB1",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "5434"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IL1b",
+    "name": "IL1b",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "5992"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "double-stranded RNA_rna",
+    "name": "double-stranded RNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "Orf3a",
+    "target": "Hops Complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "LPS/TNF \u03b1/IL-1_complex",
+    "target": "IKBKG/IKBKB/CHUK_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "TLR4",
+    "target": "LPS/TLR4/MYD88_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "IRF6",
+    "target": "LPS/TLR4/MYD88_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "MYD88",
+    "target": "LPS/TLR4/MYD88_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "TRAF3",
+    "target": "P65/P015_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "E",
+    "target": "P65/P015_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "Orf3a",
+    "target": "P65/P015_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "IKBKG/IKBKB/CHUK_complex",
+    "target": "P65/P015_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "TRAF6",
+    "target": "TAB2/TAB3/TAK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "TRIM30a/TRIM38_complex",
+    "target": "TAB2/TAB3/TAK1_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "ssRNA_rna",
+    "target": "TLR7/8/9_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "TRIM22",
+    "target": "NEMO/IKKA/IKKB_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "TRIM27/TRIM21_complex",
+    "target": "NEMO/IKKA/IKKB_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "TAB2/TAB3/TAK1_complex",
+    "target": "NEMO/IKKA/IKKB_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "TRIM14/TRIM23_complex",
+    "target": "NEMO/IKKA/IKKB_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "TRIM29",
+    "target": "NEMO/IKKA/IKKB_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "NFKBIA_phosphorylated_ubiquitinated_ubiquitinated_ubiquitinated",
+    "target": "NFKB1:NFKNIA_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "NFKB1",
+    "target": "NFKB1:NFKNIA_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "CACTIN",
+    "target": "NFKB1:NFKNIA_complex",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "Orf3a",
+    "target": "TRIM59",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "ORF8b",
+    "target": "NLRP3",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "TRAF3",
+    "target": "PYCARD_ubiquitinated_ubiquitinated_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "Orf3a",
+    "target": "PYCARD_ubiquitinated_ubiquitinated_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "TICAM1",
+    "target": "TRAF3",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "NLRP3",
+    "target": "CASP1",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "PYCARD_ubiquitinated_ubiquitinated_ubiquitinated",
+    "target": "CASP1",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "TRIM23",
+    "target": "TRAF6",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "LPS/TLR4/MYD88_complex",
+    "target": "TRAF6",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "TRIM38",
+    "target": "TRAF6",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "MYD88",
+    "target": "TRAF6",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "TLR3",
+    "target": "TICAM1",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "TRIM38",
+    "target": "TICAM1",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "TLR7/8/9_complex",
+    "target": "MYD88",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "TRIM59",
+    "target": "MYD88",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "NEMO/IKKA/IKKB_complex",
+    "target": "NFKBIA_phosphorylated_ubiquitinated_ubiquitinated_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "BTRC",
+    "target": "NFKBIA_phosphorylated_ubiquitinated_ubiquitinated_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "TRIM9",
+    "target": "BTRC",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "TRIM39",
+    "target": "CACTIN",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "Orf3a",
+    "target": "S",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "TAB2/TAB3/TAK1_complex",
+    "target": "SERPINF2",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "SERPINF2",
+    "target": "IFNB1",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "CASP1",
+    "target": "IL1b",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "P65/P015_complex",
+    "target": "IL1b",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "E",
+    "target": "IL1b",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "double-stranded RNA_rna",
+    "target": "TLR3",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/PAMP_signaling.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/PAMP_signaling.json
new file mode 100644
index 000000000..4ddf4dfcb
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/PAMP_signaling.json
@@ -0,0 +1,1404 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "MYD88",
+    "name": "MYD88",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "19366914"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRAK1",
+    "name": "IRAK1",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6112"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRAK4",
+    "name": "IRAK4",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "17967"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF6",
+    "name": "TRAF6",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12036"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MYD88:IRAK:TRAF_complex",
+    "name": "MYD88:IRAK:TRAF_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF2",
+    "name": "TRAF2",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12032"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF5",
+    "name": "TRAF5",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12035"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAVS",
+    "name": "MAVS",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "29233"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAVS:TRAF_complex",
+    "name": "MAVS:TRAF_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRADD",
+    "name": "TRADD",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12030"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAVS:TRADD_complex",
+    "name": "MAVS:TRADD_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TICAM1_cell",
+    "name": "TICAM1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TICAM1_cell",
+    "name": "TICAM1_cell",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "18348"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TICAM1:TRAF3:TRAF6_complex",
+    "name": "TICAM1:TRAF3:TRAF6_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKBKG",
+    "name": "IKBKG",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CHUK",
+    "name": "CHUK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKBKB",
+    "name": "IKBKB",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKK Complex_complex_cell",
+    "name": "IKK Complex_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKBIA",
+    "name": "NFKBIA",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "7797"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RELA",
+    "name": "RELA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKB1",
+    "name": "NFKB1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKB:NFKBIA_complex_cell",
+    "name": "NFKB:NFKBIA_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp3",
+    "name": "Nsp3",
+    "grounding": {
+     "identifiers": {
+      "ncbiprotein": "1802476807"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M",
+    "name": "M",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TANK:TRAF3:IKBKE_complex_cell",
+    "name": "TANK:TRAF3:IKBKE_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RIPK1:FADD_complex",
+    "name": "RIPK1:FADD_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dsRNA_rna_endosome",
+    "name": "dsRNA_rna_endosome",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR3:dsRNA_complex",
+    "name": "TLR3:dsRNA_complex",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "11849"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF3",
+    "name": "TRAF3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TANK",
+    "name": "TANK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKBKE_cell",
+    "name": "IKBKE_cell",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "14552"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR7",
+    "name": "TLR7",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "15631"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ssRNA_rna",
+    "name": "ssRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR7:ssRNA_complex",
+    "name": "TLR7:ssRNA_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR8",
+    "name": "TLR8",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "15632"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TLR8:ssRNA_complex",
+    "name": "TLR8:ssRNA_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dsRNA_rna_cell",
+    "name": "dsRNA_rna_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDX58",
+    "name": "DDX58",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "19102"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDX58:dsRNA_complex",
+    "name": "DDX58:dsRNA_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFIH1",
+    "name": "IFIH1",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "18873"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp15",
+    "name": "Nsp15",
+    "grounding": {
+     "identifiers": {
+      "ncbiprotein": "1802476818"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFIH1:dsRNA_complex",
+    "name": "IFIH1:dsRNA_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP2K7_phosphorylated",
+    "name": "MAP2K7_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6847"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP2K4_phosphorylated",
+    "name": "MAP2K4_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6844"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "JNK_complex",
+    "name": "JNK_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N",
+    "name": "N",
+    "grounding": {
+     "identifiers": {
+      "ncbiprotein": "1798174255"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKB_complex",
+    "name": "NFKB_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2AK2",
+    "name": "EIF2AK2",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "9437"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "EIF2AK2:dsRNA_complex",
+    "name": "EIF2AK2:dsRNA_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRAF6_ubiquitinated",
+    "name": "TRAF6_ubiquitinated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12036"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP8",
+    "name": "CASP8",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "1509"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CASP10",
+    "name": "CASP10",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "1500"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK14_phosphorylated",
+    "name": "MAPK14_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6876"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AP1_complex",
+    "name": "AP1_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TBK1_cell",
+    "name": "TBK1_cell",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "11584"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TBK1_cell",
+    "name": "TBK1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IKBKE_cell",
+    "name": "IKBKE_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF3",
+    "name": "IRF3",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6118"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3b",
+    "name": "Orf3b",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P59633"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8",
+    "name": "Orf8",
+    "grounding": {
+     "identifiers": {
+      "ncbiprotein": "1796318604"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF3_phosphorylated_cell",
+    "name": "IRF3_phosphorylated_cell",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6118"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RNF135",
+    "name": "RNF135",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "21158"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TRIM25",
+    "name": "TRIM25",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12932"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DDX58_ubiquitinated",
+    "name": "DDX58_ubiquitinated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "19102"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF3_phosphorylated_nucleus",
+    "name": "IRF3_phosphorylated_nucleus",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6118"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF7_phosphorylated",
+    "name": "IRF7_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6122"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UBE2N",
+    "name": "UBE2N",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "12492"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP3K7",
+    "name": "MAP3K7",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6859"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP2K6_phosphorylated",
+    "name": "MAP2K6_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6846"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAP2K3_phosphorylated",
+    "name": "MAP2K3_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "6843"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9",
+    "name": "Orf9",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P59636"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ITCH",
+    "name": "ITCH",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "13890"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NFKBIA_phosphorylated",
+    "name": "NFKBIA_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "hgnc": "7797"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "transcription of proinflammatory proteins_phenotype",
+    "name": "transcription of proinflammatory proteins_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "MYD88",
+    "target": "MYD88:IRAK:TRAF_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "IRAK1",
+    "target": "MYD88:IRAK:TRAF_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "IRAK4",
+    "target": "MYD88:IRAK:TRAF_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "TRAF6",
+    "target": "MYD88:IRAK:TRAF_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "TRAF5",
+    "target": "MAVS:TRAF_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "TRAF6",
+    "target": "MAVS:TRAF_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "TRAF2",
+    "target": "MAVS:TRAF_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "MAVS",
+    "target": "MAVS:TRAF_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "MAVS",
+    "target": "MAVS:TRADD_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "TRADD",
+    "target": "MAVS:TRADD_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "TICAM1_cell",
+    "target": "TICAM1:TRAF3:TRAF6_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "TRAF6",
+    "target": "TICAM1:TRAF3:TRAF6_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "TICAM1_cell",
+    "target": "TICAM1:TRAF3:TRAF6_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "IKBKB",
+    "target": "IKK Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "CHUK",
+    "target": "IKK Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "IKBKG",
+    "target": "IKK Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "NFKB1",
+    "target": "NFKB:NFKBIA_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "NFKBIA",
+    "target": "NFKB:NFKBIA_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "RELA",
+    "target": "NFKB:NFKBIA_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "MAVS:TRADD_complex",
+    "target": "TANK:TRAF3:IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "Nsp3",
+    "target": "TANK:TRAF3:IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "M",
+    "target": "TANK:TRAF3:IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "M",
+    "target": "TANK:TRAF3:IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "TICAM1:TRAF3:TRAF6_complex",
+    "target": "TANK:TRAF3:IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "MAVS:TRADD_complex",
+    "target": "RIPK1:FADD_complex",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "dsRNA_rna_endosome",
+    "target": "TLR3:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "TRAF3",
+    "target": "TANK:TRAF3:IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "TANK",
+    "target": "TANK:TRAF3:IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "IKBKE_cell",
+    "target": "TANK:TRAF3:IKBKE_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "TLR7",
+    "target": "TLR7:ssRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "ssRNA_rna",
+    "target": "TLR7:ssRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "ssRNA_rna",
+    "target": "TLR8:ssRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "TLR8",
+    "target": "TLR8:ssRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "Nsp3",
+    "target": "DDX58:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "dsRNA_rna_cell",
+    "target": "DDX58:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "DDX58",
+    "target": "DDX58:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "M",
+    "target": "DDX58:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "M",
+    "target": "IFIH1:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "Nsp3",
+    "target": "IFIH1:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "IFIH1",
+    "target": "IFIH1:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "dsRNA_rna_cell",
+    "target": "IFIH1:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "Nsp15",
+    "target": "IFIH1:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "MAP2K7_phosphorylated",
+    "target": "JNK_complex",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "MAP2K4_phosphorylated",
+    "target": "JNK_complex",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "NFKB:NFKBIA_complex_cell",
+    "target": "NFKB_complex",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "N",
+    "target": "NFKB_complex",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "EIF2AK2",
+    "target": "EIF2AK2:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "dsRNA_rna_cell",
+    "target": "EIF2AK2:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "Nsp15",
+    "target": "EIF2AK2:dsRNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "IKK Complex_complex_cell",
+    "target": "NFKB:NFKBIA_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "TRAF6_ubiquitinated",
+    "target": "IKK Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "CASP10",
+    "target": "IKK Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "CASP8",
+    "target": "IKK Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "M",
+    "target": "IKK Complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "MAPK14_phosphorylated",
+    "target": "AP1_complex",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "JNK_complex",
+    "target": "AP1_complex",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "TLR7:ssRNA_complex",
+    "target": "MYD88",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "TLR8:ssRNA_complex",
+    "target": "MYD88",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "TICAM1_cell",
+    "target": "TICAM1_cell",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "TLR3:dsRNA_complex",
+    "target": "TICAM1_cell",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "TANK:TRAF3:IKBKE_complex_cell",
+    "target": "TBK1_cell",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "TBK1_cell",
+    "target": "TBK1_cell",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "TANK:TRAF3:IKBKE_complex_cell",
+    "target": "IKBKE_cell",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "Nsp3",
+    "target": "IKBKE_cell",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "IKBKE_cell",
+    "target": "IKBKE_cell",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "Orf3b",
+    "target": "IRF3_phosphorylated_cell",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "Nsp3",
+    "target": "IRF3_phosphorylated_cell",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "Orf8",
+    "target": "IRF3_phosphorylated_cell",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "IRF3",
+    "target": "IRF3_phosphorylated_cell",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "TBK1_cell",
+    "target": "IRF3_phosphorylated_cell",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "TRIM25",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "RNF135",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "N",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "DDX58:dsRNA_complex",
+    "target": "DDX58_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "DDX58_ubiquitinated",
+    "target": "MAVS",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "IFIH1:dsRNA_complex",
+    "target": "MAVS",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "TRAF6_ubiquitinated",
+    "target": "TRAF6",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "Nsp3",
+    "target": "TRAF6",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "IRF3_phosphorylated_cell",
+    "target": "IRF3_phosphorylated_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "IKBKE_cell",
+    "target": "IRF7_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "MYD88:IRAK:TRAF_complex",
+    "target": "IRF7_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "IRF3_phosphorylated_cell",
+    "target": "IRF3_phosphorylated_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "MAVS:TRAF_complex",
+    "target": "TRAF6_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "MYD88:IRAK:TRAF_complex",
+    "target": "TRAF6_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "TRAF6",
+    "target": "TRAF6_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "UBE2N",
+    "target": "TRAF6_ubiquitinated",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "TRAF6_ubiquitinated",
+    "target": "MAP3K7",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "TICAM1:TRAF3:TRAF6_complex",
+    "target": "MAP3K7",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "MAP2K3_phosphorylated",
+    "target": "MAPK14_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "MAP2K6_phosphorylated",
+    "target": "MAPK14_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "RIPK1:FADD_complex",
+    "target": "CASP10",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "RIPK1:FADD_complex",
+    "target": "CASP8",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "Orf9",
+    "target": "ITCH",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "EIF2AK2:dsRNA_complex",
+    "target": "MAP2K6_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "MAP3K7",
+    "target": "MAP2K6_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "MAP3K7",
+    "target": "MAP2K3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "MAP3K7",
+    "target": "MAP2K4_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "MAP3K7",
+    "target": "MAP2K7_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "NFKB:NFKBIA_complex_cell",
+    "target": "NFKBIA_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "N",
+    "target": "NFKBIA_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "NFKB_complex",
+    "target": "transcription of proinflammatory proteins_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "AP1_complex",
+    "target": "transcription of proinflammatory proteins_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "IRF3_phosphorylated_nucleus",
+    "target": "transcription of proinflammatory proteins_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "IRF7_phosphorylated",
+    "target": "transcription of proinflammatory proteins_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Pyrimidine_deprivation.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Pyrimidine_deprivation.json
new file mode 100644
index 000000000..6cade6b34
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Pyrimidine_deprivation.json
@@ -0,0 +1,1796 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "NF-kB_complex",
+    "name": "NF-kB_complex",
+    "grounding": {
+     "identifiers": {
+      "GO": "0071159"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IRF3_phosphorylated",
+    "name": "IRF3_phosphorylated",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q14653"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_space_expression_space_complex_complex",
+    "name": "IFNB1_space_expression_space_complex_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cGAMP:STING_complex_endoplasmic reticulum",
+    "name": "cGAMP:STING_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cGAMP:STING_complex_Golgi apparatus",
+    "name": "cGAMP:STING_complex_Golgi apparatus",
+    "grounding": {
+     "identifiers": {
+      "GO": "1990231"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cGAMP_simple_molecule",
+    "name": "cGAMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STING_endoplasmic reticulum",
+    "name": "STING_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cGAMP-STING_complex_COPII-coated vesicle",
+    "name": "cGAMP-STING_complex_COPII-coated vesicle",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cGAMP-STING_complex_endoplasmic reticulum-Golgi intermediate compartment",
+    "name": "cGAMP-STING_complex_endoplasmic reticulum-Golgi intermediate compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LC3",
+    "name": "LC3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "WIPI2",
+    "name": "WIPI2",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9Y4P8"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cGAMP:STING:LC3_complex",
+    "name": "cGAMP:STING:LC3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dsDNA_simple_molecule",
+    "name": "dsDNA_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cGAS",
+    "name": "cGAS",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8N884"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cGAS:dsDNA_complex",
+    "name": "cGAS:dsDNA_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8N884"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRE11",
+    "name": "MRE11",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P49959"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRE11:dsDNA_complex",
+    "name": "MRE11:dsDNA_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P49959"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TBK1",
+    "name": "TBK1",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9UHD2"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STING_Golgi apparatus",
+    "name": "STING_Golgi apparatus",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STING:TBK1_complex_Golgi apparatus",
+    "name": "STING:TBK1_complex_Golgi apparatus",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "30842653"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SAR1A",
+    "name": "SAR1A",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9NR31"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "STING:TBK1_complex_endolysosome",
+    "name": "STING:TBK1_complex_endolysosome",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9UHD2"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRE11:RAD50:DNA_complex_pulmonary endothelial cell",
+    "name": "MRE11:RAD50:DNA_complex_pulmonary endothelial cell",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P49959"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRE11:RAD50:DNA_complex_endoplasmic reticulum",
+    "name": "MRE11:RAD50:DNA_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P49959"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RAD50",
+    "name": "RAD50",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q92878"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N-carbamoyl-L-aspartate_simple_molecule",
+    "name": "N-carbamoyl-L-aspartate_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "32814"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+simple_molecule",
+    "name": "H+simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CAD",
+    "name": "CAD",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P27708"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H2O_simple_molecule",
+    "name": "H2O_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "15377"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "uridine_simple_molecule",
+    "name": "uridine_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16704"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UCK2",
+    "name": "UCK2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "orotidine_space_5'-monophosphate_simple_molecule",
+    "name": "orotidine_space_5'-monophosphate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UMPS",
+    "name": "UMPS",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P11172"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UMP_simple_molecule",
+    "name": "UMP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "57865"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP_simple_molecule",
+    "name": "ATP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "15422"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "GTP_simple_molecule",
+    "name": "GTP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "15996"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RTC and transcription pw_phenotype",
+    "name": "RTC and transcription pw_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RNA_space_biosynthesis_phenotype",
+    "name": "RNA_space_biosynthesis_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CDP_simple_molecule",
+    "name": "CDP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17239"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ribonucleoside-diphosphate reductase_complex",
+    "name": "ribonucleoside-diphosphate reductase_complex",
+    "grounding": {
+     "identifiers": {
+      "GO": "0005971"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dCDP_simple_molecule",
+    "name": "dCDP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "28846"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CMPK",
+    "name": "CMPK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UDP_simple_molecule",
+    "name": "UDP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17659"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dUMP_simple_molecule",
+    "name": "dUMP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17622"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TYMS",
+    "name": "TYMS",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dTMP_simple_molecule",
+    "name": "dTMP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17013"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNA1_rna",
+    "name": "IFNA1_rna",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P01562"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNA1_pulmonary endothelial cell",
+    "name": "IFNA1_pulmonary endothelial cell",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P01562"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Gln_simple_molecule",
+    "name": "L-Gln_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HCO3-simple_molecule",
+    "name": "HCO3-simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CAP_simple_molecule",
+    "name": "CAP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Asp_simple_molecule",
+    "name": "L-Asp_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Pi_simple_molecule",
+    "name": "Pi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(S)-dihydroorotate_simple_molecule",
+    "name": "(S)-dihydroorotate_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "30864"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADP_simple_molecule",
+    "name": "ADP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16761"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dUTP_simple_molecule",
+    "name": "dUTP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17625"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DUT",
+    "name": "DUT",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dCMP_simple_molecule",
+    "name": "dCMP_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DCTD",
+    "name": "DCTD",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cytidine_simple_molecule",
+    "name": "cytidine_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17562"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CMP_simple_molecule",
+    "name": "CMP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17361"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_pulmonary endothelial cell",
+    "name": "IFNB1_pulmonary endothelial cell",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P01574"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_human host",
+    "name": "IFNB1_human host",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P01574"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dTTP_simple_molecule",
+    "name": "dTTP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "18077"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNA_space_biosynthesis_phenotype",
+    "name": "DNA_space_biosynthesis_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "virus_space_replication_phenotype",
+    "name": "virus_space_replication_phenotype",
+    "grounding": {
+     "identifiers": {
+      "GO": "0019079"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNA_gene",
+    "name": "DNA_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dTYMK",
+    "name": "dTYMK",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dTDP_simple_molecule",
+    "name": "dTDP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "18075"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DNA damage_phenotype",
+    "name": "DNA damage_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NME1",
+    "name": "NME1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "UTP_simple_molecule",
+    "name": "UTP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "15713"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "orotate_simple_molecule",
+    "name": "orotate_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "30839"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRPP_simple_molecule",
+    "name": "PRPP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17111"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PPi_simple_molecule",
+    "name": "PPi_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "L-Glu_simple_molecule",
+    "name": "L-Glu_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16015"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CDA",
+    "name": "CDA",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P32320"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNB1_rna",
+    "name": "IFNB1_rna",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P01574"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IFNA1_human host",
+    "name": "IFNA1_human host",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P01562"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dCTP_simple_molecule",
+    "name": "dCTP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16311"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DCTPP1",
+    "name": "DCTPP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CoQ_simple_molecule",
+    "name": "CoQ_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16389"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dihydroorotate_space_dehydrogenase_space_holoenzyme_simple_molecule",
+    "name": "dihydroorotate_space_dehydrogenase_space_holoenzyme_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "P1788_simple_molecule",
+    "name": "P1788_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "31740051"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Teriflunomide_drug",
+    "name": "Teriflunomide_drug",
+    "grounding": {
+     "identifiers": {
+      "drugbank": "DB08880"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "QH2_simple_molecule",
+    "name": "QH2_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17976"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "dUDP_simple_molecule",
+    "name": "dUDP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "28850"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CO2_simple_molecule",
+    "name": "CO2_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "16526"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CTPS1",
+    "name": "CTPS1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CTP_simple_molecule",
+    "name": "CTP_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "17677"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HCoVs Type I Ifn signalling(WP4868)_phenotype",
+    "name": "HCoVs Type I Ifn signalling(WP4868)_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Interferon 1 pathway_phenotype",
+    "name": "Interferon 1 pathway_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HCoVs autophagy (WP4863)_phenotype",
+    "name": "HCoVs autophagy (WP4863)_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "HCoVs IFN induction WP4880_phenotype",
+    "name": "HCoVs IFN induction WP4880_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "IRF3_phosphorylated",
+    "target": "IFNB1_space_expression_space_complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "NF-kB_complex",
+    "target": "IFNB1_space_expression_space_complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "cGAMP:STING_complex_endoplasmic reticulum",
+    "target": "cGAMP:STING_complex_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "cGAMP_simple_molecule",
+    "target": "cGAMP:STING_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "STING_endoplasmic reticulum",
+    "target": "cGAMP:STING_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "cGAMP-STING_complex_COPII-coated vesicle",
+    "target": "cGAMP-STING_complex_endoplasmic reticulum-Golgi intermediate compartment",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "LC3",
+    "target": "cGAMP:STING:LC3_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "cGAMP-STING_complex_endoplasmic reticulum-Golgi intermediate compartment",
+    "target": "cGAMP:STING:LC3_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "WIPI2",
+    "target": "cGAMP:STING:LC3_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "dsDNA_simple_molecule",
+    "target": "cGAS:dsDNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "cGAS",
+    "target": "cGAS:dsDNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "dsDNA_simple_molecule",
+    "target": "MRE11:dsDNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "MRE11",
+    "target": "MRE11:dsDNA_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "TBK1",
+    "target": "STING:TBK1_complex_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "STING_Golgi apparatus",
+    "target": "STING:TBK1_complex_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "cGAMP:STING_complex_Golgi apparatus",
+    "target": "STING:TBK1_complex_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "cGAMP:STING_complex_endoplasmic reticulum",
+    "target": "cGAMP-STING_complex_COPII-coated vesicle",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "SAR1A",
+    "target": "cGAMP-STING_complex_COPII-coated vesicle",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "STING:TBK1_complex_Golgi apparatus",
+    "target": "STING:TBK1_complex_endolysosome",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "MRE11:RAD50:DNA_complex_pulmonary endothelial cell",
+    "target": "MRE11:RAD50:DNA_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "RAD50",
+    "target": "MRE11:RAD50:DNA_complex_pulmonary endothelial cell",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "MRE11:dsDNA_complex",
+    "target": "MRE11:RAD50:DNA_complex_pulmonary endothelial cell",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "N-carbamoyl-L-aspartate_simple_molecule",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "CAD",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "H+simple_molecule",
+    "target": "H2O_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "orotidine_space_5'-monophosphate_simple_molecule",
+    "target": "UMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "UCK2",
+    "target": "UMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "UMPS",
+    "target": "UMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "uridine_simple_molecule",
+    "target": "UMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "GTP_simple_molecule",
+    "target": "cGAMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "ATP_simple_molecule",
+    "target": "cGAMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "cGAS:dsDNA_complex",
+    "target": "cGAMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "RTC and transcription pw_phenotype",
+    "target": "RNA_space_biosynthesis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "ribonucleoside-diphosphate reductase_complex",
+    "target": "dCDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "CDP_simple_molecule",
+    "target": "dCDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "CMPK",
+    "target": "UDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "UMP_simple_molecule",
+    "target": "UDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "dUMP_simple_molecule",
+    "target": "dTMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "TYMS",
+    "target": "dTMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "IFNA1_rna",
+    "target": "IFNA1_pulmonary endothelial cell",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "L-Asp_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "CAD",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "L-Gln_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "H2O_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "ATP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "HCO3-simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "CAP_simple_molecule",
+    "target": "Pi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "N-carbamoyl-L-aspartate_simple_molecule",
+    "target": "(S)-dihydroorotate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "CAD",
+    "target": "(S)-dihydroorotate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "H+simple_molecule",
+    "target": "(S)-dihydroorotate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "CAD",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "L-Gln_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "H2O_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "ATP_simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "HCO3-simple_molecule",
+    "target": "ADP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "DCTD",
+    "target": "dUMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "dUTP_simple_molecule",
+    "target": "dUMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "DUT",
+    "target": "dUMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "dCMP_simple_molecule",
+    "target": "dUMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "L-Asp_simple_molecule",
+    "target": "N-carbamoyl-L-aspartate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "CAD",
+    "target": "N-carbamoyl-L-aspartate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "CAP_simple_molecule",
+    "target": "N-carbamoyl-L-aspartate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "cytidine_simple_molecule",
+    "target": "CMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "UCK2",
+    "target": "CMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "CMP_simple_molecule",
+    "target": "CDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "CMPK",
+    "target": "CDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "IFNB1_pulmonary endothelial cell",
+    "target": "IFNB1_human host",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "dsDNA_simple_molecule",
+    "target": "DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "DNA_space_biosynthesis_phenotype",
+    "target": "DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "virus_space_replication_phenotype",
+    "target": "DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "dTTP_simple_molecule",
+    "target": "DNA_gene",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "dTMP_simple_molecule",
+    "target": "dTDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "dTYMK",
+    "target": "dTDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "DNA damage_phenotype",
+    "target": "dsDNA_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "IFNB1_space_expression_space_complex_complex",
+    "target": "IFNA1_rna",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "UDP_simple_molecule",
+    "target": "UTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "NME1",
+    "target": "UTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "dTDP_simple_molecule",
+    "target": "dTTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "orotate_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "PRPP_simple_molecule",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "UMPS",
+    "target": "PPi_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "CAD",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "L-Gln_simple_molecule",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "H2O_simple_molecule",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "ATP_simple_molecule",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "HCO3-simple_molecule",
+    "target": "L-Glu_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "cytidine_simple_molecule",
+    "target": "uridine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "CDA",
+    "target": "uridine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "IFNB1_rna",
+    "target": "IFNB1_pulmonary endothelial cell",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "IFNA1_pulmonary endothelial cell",
+    "target": "IFNA1_human host",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "CAD",
+    "target": "CAP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "L-Gln_simple_molecule",
+    "target": "CAP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "H2O_simple_molecule",
+    "target": "CAP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "ATP_simple_molecule",
+    "target": "CAP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "HCO3-simple_molecule",
+    "target": "CAP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "dCTP_simple_molecule",
+    "target": "dCMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "DCTPP1",
+    "target": "dCMP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "STING_endoplasmic reticulum",
+    "target": "STING_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "MRE11:RAD50:DNA_complex_endoplasmic reticulum",
+    "target": "STING_Golgi apparatus",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "dCDP_simple_molecule",
+    "target": "dCTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "NME1",
+    "target": "dCTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "STING:TBK1_complex_endolysosome",
+    "target": "IRF3_phosphorylated",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "dihydroorotate_space_dehydrogenase_space_holoenzyme_simple_molecule",
+    "target": "QH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "Teriflunomide_drug",
+    "target": "QH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "CoQ_simple_molecule",
+    "target": "QH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "P1788_simple_molecule",
+    "target": "QH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "(S)-dihydroorotate_simple_molecule",
+    "target": "QH2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "orotate_simple_molecule",
+    "target": "orotidine_space_5'-monophosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "PRPP_simple_molecule",
+    "target": "orotidine_space_5'-monophosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "UMPS",
+    "target": "orotidine_space_5'-monophosphate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "dUDP_simple_molecule",
+    "target": "dUTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "NME1",
+    "target": "dUTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "dihydroorotate_space_dehydrogenase_space_holoenzyme_simple_molecule",
+    "target": "orotate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "Teriflunomide_drug",
+    "target": "orotate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "CoQ_simple_molecule",
+    "target": "orotate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "P1788_simple_molecule",
+    "target": "orotate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "(S)-dihydroorotate_simple_molecule",
+    "target": "orotate_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "orotidine_space_5'-monophosphate_simple_molecule",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "UMPS",
+    "target": "CO2_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "UTP_simple_molecule",
+    "target": "CTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "NME1",
+    "target": "CTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "CDP_simple_molecule",
+    "target": "CTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "CTPS1",
+    "target": "CTP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "ribonucleoside-diphosphate reductase_complex",
+    "target": "dUDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "UDP_simple_molecule",
+    "target": "dUDP_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "IFNB1_space_expression_space_complex_complex",
+    "target": "IFNB1_rna",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "CTP_simple_molecule",
+    "target": "RTC and transcription pw_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "Teriflunomide_drug",
+    "target": "DNA damage_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "IFNA1_human host",
+    "target": "HCoVs Type I Ifn signalling(WP4868)_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "IFNB1_human host",
+    "target": "HCoVs Type I Ifn signalling(WP4868)_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "IFNA1_human host",
+    "target": "Interferon 1 pathway_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t132",
+    "source": "IFNB1_human host",
+    "target": "Interferon 1 pathway_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "cGAMP:STING:LC3_complex",
+    "target": "HCoVs autophagy (WP4863)_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "IFNA1_human host",
+    "target": "HCoVs IFN induction WP4880_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "IFNB1_human host",
+    "target": "HCoVs IFN induction WP4880_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/RTC-and-transcription.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/RTC-and-transcription.json
new file mode 100644
index 000000000..8b70c26f0
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/RTC-and-transcription.json
@@ -0,0 +1,560 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "name": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "CoV_space_poly-br_merase_space_complex_complex_cell",
+    "name": "CoV_space_poly-br_merase_space_complex_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp9_cell",
+    "name": "nsp9_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "complex_complex_cell",
+    "name": "complex_complex_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_cell",
+    "name": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp8_space_(I)",
+    "name": "nsp8_space_(I)",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp8_space_(II)",
+    "name": "nsp8_space_(II)",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp7",
+    "name": "nsp7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp14",
+    "name": "nsp14",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp10",
+    "name": "nsp10",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp12",
+    "name": "nsp12",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CoV_space_poly-br_merase_space_complex_complex_double membrane vesicle viral factory",
+    "name": "CoV_space_poly-br_merase_space_complex_complex_double membrane vesicle viral factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "complex_complex_double membrane vesicle viral factory",
+    "name": "complex_complex_double membrane vesicle viral factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1a_cell",
+    "name": "pp1a_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp2",
+    "name": "nsp2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp5",
+    "name": "nsp5",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1ab_cell",
+    "name": "pp1ab_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp3",
+    "name": "nsp3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp4",
+    "name": "nsp4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp15",
+    "name": "nsp15",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp16",
+    "name": "nsp16",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_double membrane vesicle viral factory",
+    "name": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_double membrane vesicle viral factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1a_double membrane vesicle viral factory",
+    "name": "pp1a_double membrane vesicle viral factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp1",
+    "name": "nsp1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(+)sgRNA_space_(2-9)_gene",
+    "name": "(+)sgRNA_space_(2-9)_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp9_double membrane vesicle viral factory",
+    "name": "nsp9_double membrane vesicle viral factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp13",
+    "name": "nsp13",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(-)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene",
+    "name": "(-)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1ab_double membrane vesicle viral factory",
+    "name": "pp1ab_double membrane vesicle viral factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp11",
+    "name": "nsp11",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "viral_space_accessory",
+    "name": "viral_space_accessory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "nsp6",
+    "name": "nsp6",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "structural_space_proteins",
+    "name": "structural_space_proteins",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "nsp9_cell",
+    "target": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "CoV_space_poly-br_merase_space_complex_complex_cell",
+    "target": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "complex_complex_cell",
+    "target": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_cell",
+    "target": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "nsp8_space_(I)",
+    "target": "complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "nsp7",
+    "target": "complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "nsp8_space_(II)",
+    "target": "complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "nsp10",
+    "target": "CoV_space_poly-br_merase_space_complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "nsp14",
+    "target": "CoV_space_poly-br_merase_space_complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "nsp12",
+    "target": "CoV_space_poly-br_merase_space_complex_complex_cell",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "target": "CoV_space_poly-br_merase_space_complex_complex_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "target": "complex_complex_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "pp1a_cell",
+    "target": "nsp2",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "pp1a_cell",
+    "target": "nsp5",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "pp1ab_cell",
+    "target": "nsp14",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "pp1a_cell",
+    "target": "nsp3",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "pp1a_cell",
+    "target": "nsp4",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "pp1ab_cell",
+    "target": "nsp15",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_cell",
+    "target": "pp1ab_cell",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "pp1a_cell",
+    "target": "nsp9_cell",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "pp1ab_cell",
+    "target": "nsp16",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "target": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_double membrane vesicle viral factory",
+    "target": "pp1a_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "pp1a_cell",
+    "target": "nsp8_space_(I)",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "pp1a_cell",
+    "target": "nsp1",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "target": "(+)sgRNA_space_(2-9)_gene",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "target": "nsp9_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "pp1a_cell",
+    "target": "nsp7",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "pp1ab_cell",
+    "target": "nsp12",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "pp1ab_cell",
+    "target": "nsp13",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_cell",
+    "target": "pp1a_cell",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "Replication_space_transcription_space_complex_space__complex_double membrane vesicle viral factory",
+    "target": "(-)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "(+)gRNA_space_(including_space_ORF1a_space_ORF1b)_gene_double membrane vesicle viral factory",
+    "target": "pp1ab_double membrane vesicle viral factory",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "pp1a_cell",
+    "target": "nsp10",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "pp1a_cell",
+    "target": "nsp11",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "pp1a_cell",
+    "target": "nsp8_space_(II)",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "(+)sgRNA_space_(2-9)_gene",
+    "target": "viral_space_accessory",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "pp1a_cell",
+    "target": "nsp6",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "(+)sgRNA_space_(2-9)_gene",
+    "target": "structural_space_proteins",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Renin_angiotensin.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Renin_angiotensin.json
new file mode 100644
index 000000000..41846515a
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Renin_angiotensin.json
@@ -0,0 +1,1637 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "AGTR1_cell",
+    "name": "AGTR1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:336"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2_cell",
+    "name": "ACE2_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:13557"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin II_simple_molecule_cell",
+    "name": "angiotensin II_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:48432"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2:AGTR1_complex",
+    "name": "ACE2:AGTR1_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "25225202"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S",
+    "name": "S",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "uniprot:P0DTC2",
+      "property1": "uniprot:P59594"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TMPRSS2",
+    "name": "TMPRSS2",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:11876",
+      "property1": "HGNC:11876"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Camostat mesilate_drug",
+    "name": "Camostat mesilate_drug",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "135632"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2-Spike complex_complex",
+    "name": "ACE2-Spike complex_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32275855"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AGTR1_cell_active",
+    "name": "AGTR1_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:336",
+      "property1": "HGNC:336"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAS1_cell",
+    "name": "MAS1_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:6899"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAS1:AGTR1_complex",
+    "name": "MAS1:AGTR1_complex",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "15809376"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AGT",
+    "name": "AGT",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:333",
+      "property1": "HGNC:333"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "REN",
+    "name": "REN",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:9958",
+      "property1": "HGNC:9958",
+      "property2": "HGNC:9958"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin 1-12_simple_molecule",
+    "name": "angiotensin 1-12_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "27465904"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE_cell",
+    "name": "ACE_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:2707"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CTSD",
+    "name": "CTSD",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:2529"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CTSG",
+    "name": "CTSG",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:2532"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin I_simple_molecule",
+    "name": "angiotensin I_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:2718"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin 1-9_simple_molecule",
+    "name": "angiotensin 1-9_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:80128"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CMA1",
+    "name": "CMA1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:2097"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "KLK1",
+    "name": "KLK1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:6357"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE_cell_active",
+    "name": "ACE_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:2707"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MME_cell",
+    "name": "MME_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:7154"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PRCP",
+    "name": "PRCP",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:9344"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "THOP1",
+    "name": "THOP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:11793"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PREP",
+    "name": "PREP",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:9358"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin 1-7_simple_molecule_cell",
+    "name": "angiotensin 1-7_simple_molecule_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:55438"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AGTR2_cell",
+    "name": "AGTR2_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:338"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CGP42112A_drug",
+    "name": "CGP42112A_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin A_simple_molecule",
+    "name": "angiotensin A_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "kegg.compound:C20970",
+      "property1": "pubchem.compound:91691124"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AGTR2_cell_active",
+    "name": "AGTR2_cell_active",
+    "grounding": {
+     "identifiers": {
+      "HGNC": "338"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin 1-5_simple_molecule",
+    "name": "angiotensin 1-5_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:80129"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "AR234960_drug",
+    "name": "AR234960_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAS1_cell_active",
+    "name": "MAS1_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:6899"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "estradiol_simple_molecule",
+    "name": "estradiol_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16469"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Calcitriol_simple_molecule",
+    "name": "Calcitriol_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:17823"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2_gene",
+    "name": "ACE2_gene",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:13557"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "aging_phenotype",
+    "name": "aging_phenotype",
+    "grounding": {
+     "identifiers": {
+      "GO": "0007568"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SARS-CoV-2 infection_phenotype",
+    "name": "SARS-CoV-2 infection_phenotype",
+    "grounding": {
+     "identifiers": {
+      "mesh": "C000657245"
+     },
+     "context": {
+      "property": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "hypertension_phenotype",
+    "name": "hypertension_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "mesh:D006973"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": " Diabetes mellitus, type II_phenotype",
+    "name": " Diabetes mellitus, type II_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "mesh:D003924"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ethynylestradiol_simple_molecule",
+    "name": "ethynylestradiol_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:4903"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "androgen_simple_molecule",
+    "name": "androgen_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:50113"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "alamandine_simple_molecule",
+    "name": "alamandine_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "pubchem.compound": "44192273"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRGPRD_cell",
+    "name": "MRGPRD_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:29626"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MRGPRD_cell_active",
+    "name": "MRGPRD_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:29626"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LNPEP_cell_active",
+    "name": "LNPEP_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:6656"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "vasoconstriction_phenotype",
+    "name": "vasoconstriction_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "inflammatory response_phenotype",
+    "name": "inflammatory response_phenotype",
+    "grounding": {
+     "identifiers": {
+      "GO": "0006954"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENPEP_cell_active",
+    "name": "ENPEP_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:3355"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin III_simple_molecule",
+    "name": "angiotensin III_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "CHEBI": "89666"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ANPEP ",
+    "name": "ANPEP ",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:500"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin IV_simple_molecule",
+    "name": "angiotensin IV_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:80127"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ENPEP_cell",
+    "name": "ENPEP_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:3355"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "QGC001_drug",
+    "name": "QGC001_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "sex, male_phenotype",
+    "name": "sex, male_phenotype",
+    "grounding": {
+     "identifiers": {
+      "mesh": "D008297"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ADAM17",
+    "name": "ADAM17",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:195"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2, soluble",
+    "name": "ACE2, soluble",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "hgnc:ACE2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "aldosterone_simple_molecule",
+    "name": "aldosterone_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:27584"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin II_simple_molecule_human host",
+    "name": "angiotensin II_simple_molecule_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:48432"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin 1-7_simple_molecule_human host",
+    "name": "angiotensin 1-7_simple_molecule_human host",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:55438"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2_cell_active",
+    "name": "ACE2_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:13557"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ABO blood group system_phenotype",
+    "name": "ABO blood group system_phenotype",
+    "grounding": {
+     "identifiers": {
+      "mesh": "D000017"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Lisinopril_drug",
+    "name": "Lisinopril_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Losartan_drug",
+    "name": "Losartan_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin 1-4_simple_molecule",
+    "name": "angiotensin 1-4_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "22490446"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LNPEP_cell",
+    "name": "LNPEP_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "HGNC:6656"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "angiotensin 3-7_simple_molecule",
+    "name": "angiotensin 3-7_simple_molecule",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "30934934"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "oxidative stress_phenotype",
+    "name": "oxidative stress_phenotype",
+    "grounding": {
+     "identifiers": {
+      "GO": "0006979"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "viral replication cycle_phenotype",
+    "name": "viral replication cycle_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "fibrosis_phenotype",
+    "name": "fibrosis_phenotype",
+    "grounding": {
+     "identifiers": {
+      "mesh": "D005355"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "thrombosis_phenotype",
+    "name": "thrombosis_phenotype",
+    "grounding": {
+     "identifiers": {
+      "mesh": "D013927"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MME_cell_active",
+    "name": "MME_cell_active",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "cognition_phenotype",
+    "name": "cognition_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "mesh:D003071"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pulmonary edema_phenotype",
+    "name": "pulmonary edema_phenotype",
+    "grounding": {
+     "identifiers": {
+      "mesh": "D011654"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "platelet aggregation_phenotype",
+    "name": "platelet aggregation_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0070527"
+     }
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "angiotensin II_simple_molecule_cell",
+    "target": "ACE2:AGTR1_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "ACE2_cell",
+    "target": "ACE2:AGTR1_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "AGTR1_cell",
+    "target": "ACE2:AGTR1_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "ACE2_cell",
+    "target": "ACE2-Spike complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "TMPRSS2",
+    "target": "ACE2-Spike complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "Camostat mesilate_drug",
+    "target": "ACE2-Spike complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "S",
+    "target": "ACE2-Spike complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "MAS1_cell",
+    "target": "MAS1:AGTR1_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "AGTR1_cell_active",
+    "target": "MAS1:AGTR1_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "AGT",
+    "target": "angiotensin I_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "ACE_cell",
+    "target": "angiotensin I_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "REN",
+    "target": "angiotensin I_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "CTSG",
+    "target": "angiotensin I_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "CTSD",
+    "target": "angiotensin I_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "angiotensin 1-12_simple_molecule",
+    "target": "angiotensin I_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "angiotensin I_simple_molecule",
+    "target": "angiotensin 1-9_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "ACE2_cell",
+    "target": "angiotensin 1-9_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "ACE_cell",
+    "target": "angiotensin II_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "CMA1",
+    "target": "angiotensin II_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "KLK1",
+    "target": "angiotensin II_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "angiotensin 1-12_simple_molecule",
+    "target": "angiotensin II_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "angiotensin I_simple_molecule",
+    "target": "angiotensin II_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "S",
+    "target": "angiotensin II_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "angiotensin 1-9_simple_molecule",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "PREP",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "THOP1",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "ACE_cell_active",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "ACE2_cell",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "angiotensin I_simple_molecule",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "angiotensin II_simple_molecule_cell",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "PRCP",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "MME_cell",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "angiotensin 1-12_simple_molecule",
+    "target": "angiotensin 1-7_simple_molecule_cell",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "angiotensin 1-9_simple_molecule",
+    "target": "AGTR2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "angiotensin A_simple_molecule",
+    "target": "AGTR2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "angiotensin 1-7_simple_molecule_cell",
+    "target": "AGTR2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "AGTR2_cell",
+    "target": "AGTR2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "angiotensin II_simple_molecule_cell",
+    "target": "AGTR2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "CGP42112A_drug",
+    "target": "AGTR2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "angiotensin 1-5_simple_molecule",
+    "target": "MAS1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "angiotensin 1-7_simple_molecule_cell",
+    "target": "MAS1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "MAS1_cell",
+    "target": "MAS1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "AR234960_drug",
+    "target": "MAS1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "estradiol_simple_molecule",
+    "target": "ACE_cell",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "Calcitriol_simple_molecule",
+    "target": "ACE_cell",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "hypertension_phenotype",
+    "target": "ACE2_cell",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "aging_phenotype",
+    "target": "ACE2_cell",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "Calcitriol_simple_molecule",
+    "target": "ACE2_cell",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "ACE2_cell",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "estradiol_simple_molecule",
+    "target": "ACE2_cell",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "ACE2_gene",
+    "target": "ACE2_cell",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": " Diabetes mellitus, type II_phenotype",
+    "target": "ACE2_cell",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "S",
+    "target": "ACE2_cell",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "ACE_cell_active",
+    "target": "angiotensin 1-5_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "angiotensin 1-7_simple_molecule_cell",
+    "target": "angiotensin 1-5_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "ethynylestradiol_simple_molecule",
+    "target": "AGT",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "androgen_simple_molecule",
+    "target": "TMPRSS2",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "angiotensin 1-7_simple_molecule_cell",
+    "target": "alamandine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "ACE2_cell",
+    "target": "alamandine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "angiotensin A_simple_molecule",
+    "target": "alamandine_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "alamandine_simple_molecule",
+    "target": "MRGPRD_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "angiotensin 1-7_simple_molecule_cell",
+    "target": "MRGPRD_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "MRGPRD_cell",
+    "target": "MRGPRD_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "angiotensin II_simple_molecule_cell",
+    "target": "angiotensin A_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "MAS1_cell_active",
+    "target": "vasoconstriction_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "LNPEP_cell_active",
+    "target": "vasoconstriction_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "MRGPRD_cell_active",
+    "target": "vasoconstriction_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "AGTR1_cell_active",
+    "target": "vasoconstriction_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "AGTR2_cell_active",
+    "target": "vasoconstriction_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "MAS1_cell_active",
+    "target": "inflammatory response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t71",
+    "source": "MRGPRD_cell_active",
+    "target": "inflammatory response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "AGTR1_cell_active",
+    "target": "inflammatory response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "LNPEP_cell_active",
+    "target": "inflammatory response_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "ENPEP_cell_active",
+    "target": "angiotensin III_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "angiotensin II_simple_molecule_cell",
+    "target": "angiotensin III_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "ANPEP ",
+    "target": "angiotensin IV_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "angiotensin III_simple_molecule",
+    "target": "angiotensin IV_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "ENPEP_cell",
+    "target": "ENPEP_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "sex, male_phenotype",
+    "target": "ENPEP_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "QGC001_drug",
+    "target": "ENPEP_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "Calcitriol_simple_molecule",
+    "target": "Calcitriol_simple_molecule",
+    "sign": false
+   },
+   {
+    "id": "t82",
+    "source": "ADAM17",
+    "target": "ACE2, soluble",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "AGTR1_cell_active",
+    "target": "ACE2, soluble",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "ACE2_cell",
+    "target": "ACE2, soluble",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "aldosterone_simple_molecule",
+    "target": "aldosterone_simple_molecule",
+    "sign": false
+   },
+   {
+    "id": "t86",
+    "source": "SARS-CoV-2 infection_phenotype",
+    "target": "angiotensin II_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "angiotensin II_simple_molecule_human host",
+    "target": "angiotensin 1-7_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "ACE2, soluble",
+    "target": "angiotensin 1-7_simple_molecule_human host",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "aging_phenotype",
+    "target": "ACE2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "sex, male_phenotype",
+    "target": "ACE2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "ACE2_cell",
+    "target": "ACE2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "hypertension_phenotype",
+    "target": "ACE2_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "aldosterone_simple_molecule",
+    "target": "ACE_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "hypertension_phenotype",
+    "target": "ACE_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "aging_phenotype",
+    "target": "ACE_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "ACE_cell",
+    "target": "ACE_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "ABO blood group system_phenotype",
+    "target": "ACE_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "Lisinopril_drug",
+    "target": "ACE_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "sex, male_phenotype",
+    "target": "ACE_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t100",
+    "source": "angiotensin IV_simple_molecule",
+    "target": "AGTR1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "Losartan_drug",
+    "target": "AGTR1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "angiotensin A_simple_molecule",
+    "target": "AGTR1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "angiotensin 1-7_simple_molecule_cell",
+    "target": "AGTR1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "angiotensin II_simple_molecule_cell",
+    "target": "AGTR1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "MAS1:AGTR1_complex",
+    "target": "AGTR1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "AGTR1_cell",
+    "target": "AGTR1_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "MME_cell",
+    "target": "angiotensin 1-4_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "angiotensin 1-12_simple_molecule",
+    "target": "angiotensin 1-4_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "angiotensin 3-7_simple_molecule",
+    "target": "LNPEP_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "angiotensin IV_simple_molecule",
+    "target": "LNPEP_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "LNPEP_cell",
+    "target": "LNPEP_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "MAS1_cell_active",
+    "target": "oxidative stress_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "AGTR1_cell_active",
+    "target": "oxidative stress_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "angiotensin IV_simple_molecule",
+    "target": "angiotensin 3-7_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "angiotensin 1-7_simple_molecule_cell",
+    "target": "angiotensin 3-7_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "angiotensin II_simple_molecule_cell",
+    "target": "angiotensin 3-7_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "ACE2-Spike complex_complex",
+    "target": "viral replication cycle_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "MAS1_cell_active",
+    "target": "fibrosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "AGTR2_cell_active",
+    "target": "fibrosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "AGTR1_cell_active",
+    "target": "fibrosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "MAS1_cell_active",
+    "target": "thrombosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "AGTR1_cell_active",
+    "target": "thrombosis_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "LNPEP_cell_active",
+    "target": "LNPEP_cell_active",
+    "sign": false
+   },
+   {
+    "id": "t124",
+    "source": "MME_cell",
+    "target": "MME_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "sex, male_phenotype",
+    "target": "MME_cell_active",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "AGTR1_cell_active",
+    "target": "aldosterone_simple_molecule",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "AGTR1_cell_active",
+    "target": "cognition_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "LNPEP_cell_active",
+    "target": "cognition_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "AGTR1_cell_active",
+    "target": "pulmonary edema_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "AGTR1_cell_active",
+    "target": "platelet aggregation_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/TGFB_pathway.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/TGFB_pathway.json
new file mode 100644
index 000000000..a35415b89
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/TGFB_pathway.json
@@ -0,0 +1,361 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "BMPR1/2/ACTR2_complex",
+    "name": "BMPR1/2/ACTR2_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a",
+    "name": "Orf3a",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp7b_cell",
+    "name": "Nsp7b_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E",
+    "name": "E",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "BAMBI",
+    "name": "BAMBI",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "MAPK3",
+    "name": "MAPK3",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SMAD1/5/8_complex",
+    "name": "SMAD1/5/8_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TGFB/TGFBR_complex",
+    "name": "TGFB/TGFBR_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACVR1",
+    "name": "ACVR1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACVR1B",
+    "name": "ACVR1B",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp7b_default_compartment",
+    "name": "Nsp7b_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E3 ubiquitin ligase complex_complex",
+    "name": "E3 ubiquitin ligase complex_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SMAD2/3_complex",
+    "name": "SMAD2/3_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8",
+    "name": "Orf8",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "LTBP1",
+    "name": "LTBP1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a",
+    "name": "Orf7a",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "PP2A_complex",
+    "name": "PP2A_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp7",
+    "name": "Nsp7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RHOA",
+    "name": "RHOA",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "RPS6KB1_empty",
+    "name": "RPS6KB1_empty",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Modulation of cell cycle_phenotype",
+    "name": "Modulation of cell cycle_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "MAPK3",
+    "target": "SMAD1/5/8_complex",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "E",
+    "target": "SMAD1/5/8_complex",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "Orf3a",
+    "target": "SMAD1/5/8_complex",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "BAMBI",
+    "target": "SMAD1/5/8_complex",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "BMPR1/2/ACTR2_complex",
+    "target": "SMAD1/5/8_complex",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "Nsp7b_cell",
+    "target": "SMAD1/5/8_complex",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "ACVR1B",
+    "target": "SMAD2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "TGFB/TGFBR_complex",
+    "target": "SMAD2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "MAPK3",
+    "target": "SMAD2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "ACVR1",
+    "target": "SMAD2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "E3 ubiquitin ligase complex_complex",
+    "target": "SMAD2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "BAMBI",
+    "target": "SMAD2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "Orf3a",
+    "target": "SMAD2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "Nsp7b_default_compartment",
+    "target": "SMAD2/3_complex",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "Orf8",
+    "target": "TGFB/TGFBR_complex",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "BAMBI",
+    "target": "TGFB/TGFBR_complex",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "LTBP1",
+    "target": "TGFB/TGFBR_complex",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "Orf7a",
+    "target": "PP2A_complex",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "TGFB/TGFBR_complex",
+    "target": "PP2A_complex",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "Nsp7",
+    "target": "RHOA",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "TGFB/TGFBR_complex",
+    "target": "RHOA",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "PP2A_complex",
+    "target": "RPS6KB1_empty",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "SMAD2/3_complex",
+    "target": "Modulation of cell cycle_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "SMAD1/5/8_complex",
+    "target": "Modulation of cell cycle_phenotype",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/scripts/covid19_diseasemaps/regnet_amr_sbml/Virus_replication_cycle.json b/scripts/covid19_diseasemaps/regnet_amr_sbml/Virus_replication_cycle.json
new file mode 100644
index 000000000..d976ee828
--- /dev/null
+++ b/scripts/covid19_diseasemaps/regnet_amr_sbml/Virus_replication_cycle.json
@@ -0,0 +1,3907 @@
+{
+ "header": {
+  "name": "Model",
+  "schema": "https://raw.githubusercontent.com/DARPA-ASKEM/Model-Representations/regnet_v0.2/regnet/regnet_schema.json",
+  "schema_name": "regnet",
+  "description": "Model",
+  "model_version": "0.1"
+ },
+ "model": {
+  "vertices": [
+   {
+    "id": "Nsp16",
+    "name": "Nsp16",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp15",
+    "name": "Nsp15",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp14",
+    "name": "Nsp14",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp13",
+    "name": "Nsp13",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp12",
+    "name": "Nsp12",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp9",
+    "name": "Nsp9",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp8",
+    "name": "Nsp8",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6_endoplasmic reticulum",
+    "name": "Nsp6_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp3",
+    "name": "Nsp3",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Nsp3"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4_endoplasmic reticulum",
+    "name": "Nsp4_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp7",
+    "name": "Nsp7",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp10",
+    "name": "Nsp10",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp2",
+    "name": "Nsp2",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2_epithelial_space_cell",
+    "name": "ACE2_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9BYF1"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S_SARS-CoV-2_space_virion",
+    "name": "S_SARS-CoV-2_space_virion",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740568"
+     },
+     "context": {
+      "property": "uniprot:P0DTC2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Heparan_space_sulfate_simple_molecule",
+    "name": "Heparan_space_sulfate_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:28815"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "name": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "name": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740575"
+     },
+     "context": {
+      "property": "GO:0019013",
+      "property1": "refseq:NC_045512",
+      "property2": "uniprot:P0DTC9"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a_SARS-CoV-2_space_virion",
+    "name": "Orf7a_SARS-CoV-2_space_virion",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740573"
+     },
+     "context": {
+      "property": "uniprot:P0DTC7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_SARS-CoV-2_space_virion",
+    "name": "E_SARS-CoV-2_space_virion",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740570"
+     },
+     "context": {
+      "property": "uniprot:P0DTC4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M_SARS-CoV-2_space_virion",
+    "name": "M_SARS-CoV-2_space_virion",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740571"
+     },
+     "context": {
+      "property": "uniprot:P0DTC5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S2_epithelial_space_cell",
+    "name": "S2_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "interpro:IPR002552"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "cholesterol_simple_molecule",
+    "name": "cholesterol_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:16113"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S1:NRP1_space_complex_complex",
+    "name": "S1:NRP1_space_complex_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O14786"
+     },
+     "context": {
+      "property": "interpro:IPR002551"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "name": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740575"
+     },
+     "context": {
+      "property": "GO:0019013",
+      "property1": "GO:0019013",
+      "property2": "refseq:NC_045512",
+      "property3": "refseq:NC_045512",
+      "property4": "uniprot:P0DTC9",
+      "property5": "uniprot:P0DTC9"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "S2_SARS-CoV-2_space_virion",
+    "name": "S2_SARS-CoV-2_space_virion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "interpro:IPR002552"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "Nucleocapsid_complex_epithelial_space_cell",
+    "name": "Nucleocapsid_complex_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740575"
+     },
+     "context": {
+      "property": "GO:0019013",
+      "property1": "refseq:NC_045512",
+      "property2": "uniprot:P0DTC9"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "name": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9BYF1"
+     },
+     "context": {
+      "property": "uniprot:P0DTC2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S1_default_compartment",
+    "name": "S1_default_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "interpro:IPR002551"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NRP1",
+    "name": "NRP1",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O14786"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N_epithelial_space_cell",
+    "name": "N_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740575"
+     },
+     "context": {
+      "property": "uniprot:P0DTC9"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "Replication_space_transcription_space_complex:N_space_oligomer_complex",
+    "name": "Replication_space_transcription_space_complex:N_space_oligomer_complex",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740575"
+     },
+     "context": {
+      "property": "uniprot:P0DTC9"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nucleocapsid_complex_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "Nucleocapsid_complex_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740575"
+     },
+     "context": {
+      "property": "GO:0019013",
+      "property1": "refseq:NC_045512",
+      "property2": "uniprot:P0DTC9"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(+)ss gRNA_rna_epithelial_space_cell",
+    "name": "(+)ss gRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "refseq:NC_045512"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4:IDE_complex_epithelial_space_cell",
+    "name": "Nsp4:IDE_complex_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_004969"
+     },
+     "context": {
+      "property": "ncbiprotein:BCD58761",
+      "property1": "taxonomy:2697049",
+      "property2": "uniprot:P14735"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "Nsp4_IDE_complex",
+    "name": "Nsp4_IDE_complex",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_004969"
+     },
+     "context": {
+      "property": "ncbiprotein:BCD58761",
+      "property1": "taxonomy:2697049",
+      "property2": "uniprot:P14735"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4_epithelial_space_cell",
+    "name": "Nsp4_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDE_epithelial_space_cell",
+    "name": "IDE_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "taxonomy": "10116"
+     },
+     "context": {
+      "property": "uniprot:P14735"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SARS-CoV2 candidate drugs_complex",
+    "name": "SARS-CoV2 candidate drugs_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1_endoplasmic reticulum",
+    "name": "SIGMAR1_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_005866"
+     },
+     "context": {
+      "property": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1: drug complex_complex",
+    "name": "SIGMAR1: drug complex_complex",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_005866"
+     },
+     "context": {
+      "property": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP210_endoplasmic reticulum",
+    "name": "NUP210_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8TEM1"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "name": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8TEM1"
+     },
+     "context": {
+      "property": "ncbiprotein:BCD58761",
+      "property1": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6_epithelial_space_cell",
+    "name": "Nsp6_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-ATPase_complex_endoplasmic reticulum",
+    "name": "V-ATPase_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_001183"
+     },
+     "context": {
+      "property": "uniprot:Q15904"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "name": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q15904"
+     },
+     "context": {
+      "property": "taxonomy:2697049",
+      "property1": "uniprot:Q15904"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-type_space_proton_space_ATPase_complex",
+    "name": "V-type_space_proton_space_ATPase_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0046611"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP6AP1",
+    "name": "ATP6AP1",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_001183"
+     },
+     "context": {
+      "property": "uniprot:Q15904"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "name": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_005866"
+     },
+     "context": {
+      "property": "taxonomy:2697049",
+      "property1": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6:SIGMAR1_complex_nucleus",
+    "name": "Nsp6:SIGMAR1_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_005866"
+     },
+     "context": {
+      "property": "taxonomy:2697049",
+      "property1": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4:NUP210_complex_nucleus",
+    "name": "Nsp4:NUP210_complex_nucleus",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8TEM1"
+     },
+     "context": {
+      "property": "ncbiprotein:BCD58761",
+      "property1": "taxonomy:2697049"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-ATPase:Nsp6_complex_endosome",
+    "name": "V-ATPase:Nsp6_complex_endosome",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q15904"
+     },
+     "context": {
+      "property": "taxonomy:2697049",
+      "property1": "uniprot:Q15904"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "V-ATPase_complex_endosome",
+    "name": "V-ATPase_complex_endosome",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_001183"
+     },
+     "context": {
+      "property": "uniprot:Q15904"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp6:SIGMAR1_complex_epithelial_space_cell",
+    "name": "Nsp6:SIGMAR1_complex_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_005866"
+     },
+     "context": {
+      "property": "taxonomy:2697049",
+      "property1": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Selinexor_drug",
+    "name": "Selinexor_drug",
+    "grounding": {
+     "identifiers": {
+      "pubmed": "32353859"
+     },
+     "context": {
+      "property": "drugbank:DB11942"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP210:Selinexor_complex",
+    "name": "NUP210:Selinexor_complex",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8TEM1"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "bafilomycin_space_A1_drug",
+    "name": "bafilomycin_space_A1_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "drugbank:DB06733"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ATP6AP1:Bafilomycin_space_A1_complex",
+    "name": "ATP6AP1:Bafilomycin_space_A1_complex",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_001183"
+     },
+     "context": {
+      "property": "uniprot:Q15904"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp4_ALG11_complex_endoplasmic reticulum",
+    "name": "Nsp4_ALG11_complex_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_001004127"
+     },
+     "context": {
+      "property": "ncbiprotein:BCD58761",
+      "property1": "taxonomy:2697049",
+      "property2": "uniprot:Q2TAA5"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "ALG11_endoplasmic reticulum",
+    "name": "ALG11_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_001004127"
+     },
+     "context": {
+      "property": "uniprot:Q2TAA5"
+     }
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "RAB7A",
+    "name": "RAB7A",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ARL8B",
+    "name": "ARL8B",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Ca+2_simple_molecule",
+    "name": "Ca+2_simple_molecule",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ds_space_gRNA_rna",
+    "name": "ds_space_gRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(-)ss_space_gRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "(-)ss_space_gRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "refseq:NC_045512"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp1",
+    "name": "Nsp1",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S_rough_space_endoplasmic_space_reticulum",
+    "name": "S_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740568"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "S_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740568"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "name": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "refseq:NC_045512"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf9b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_space_ds_space_sgmRNA_rna",
+    "name": "E_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "E_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b_space_ds_space_sgmRNA_rna",
+    "name": "Orf9b_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M_space_ds_space_sgmRNA_rna",
+    "name": "M_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "M_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b_rough_space_endoplasmic_space_reticulum",
+    "name": "Orf9b_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "Orf9b_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf3a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1ab_space_Nsp3-16_endoplasmic reticulum",
+    "name": "pp1ab_space_Nsp3-16_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740578"
+     },
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "pp1ab_space_nsp6-16",
+    "name": "pp1ab_space_nsp6-16",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740578"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "E (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "name": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0070992"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_rough_space_endoplasmic_space_reticulum",
+    "name": "E_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740570"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf14_rough_space_endoplasmic_space_reticulum",
+    "name": "Orf14_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf14_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "Orf14_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "M_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp5_epithelial_space_cell",
+    "name": "Nsp5_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(+)ss_space_gRNA_rna",
+    "name": "(+)ss_space_gRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "refseq:NC_045512"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Host_space_translation_space_complex_complex_epithelial_space_cell",
+    "name": "Host_space_translation_space_complex_complex_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0070992"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1a",
+    "name": "pp1a",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740578"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1ab",
+    "name": "pp1ab",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P0DTD1"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf14_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf14_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf14_space_ds_space_sgmRNA_rna",
+    "name": "Orf14_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "E_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf7b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp3-4",
+    "name": "Nsp3-4",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp3-4_glycosylated",
+    "name": "Nsp3-4_glycosylated",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1a_space_Nsp6-11",
+    "name": "pp1a_space_Nsp6-11",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740578"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp5_endoplasmic reticulum",
+    "name": "Nsp5_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8_space_ds_space_sgmRNA_rna",
+    "name": "Orf8_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf8_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6_space_ds_space_sgmRNA_rna",
+    "name": "Orf6_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf6_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "FURIN",
+    "name": "FURIN",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P09958"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "TMPRSS2",
+    "name": "TMPRSS2",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "O15393"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Camostat_space_mesylate_drug",
+    "name": "Camostat_space_mesylate_drug",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "pubchem.compound:2536"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a_endosome",
+    "name": "Orf7a_endosome",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740573"
+     },
+     "context": {
+      "property": "uniprot:P0DTC7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7b_space_ds_space_sgmRNA_rna",
+    "name": "Orf7b_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N_space_space_(-)ss_space_sgmRNA_rna",
+    "name": "N_space_space_(-)ss_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N_space_ds_space_sgmRNA_rna",
+    "name": "N_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "E_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740570"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "pp1a_space_Nsp3-11_endoplasmic reticulum",
+    "name": "pp1a_space_Nsp3-11_endoplasmic reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740578"
+     },
+     "context": {}
+    },
+    "initial": 3.0,
+    "sign": true
+   },
+   {
+    "id": "Orf7b_rough_space_endoplasmic_space_reticulum",
+    "name": "Orf7b_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740574"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7b_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "Orf7b_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740574"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf3a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a_rough_space_endoplasmic_space_reticulum",
+    "name": "Orf3a_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740569"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf9b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a_epithelial_space_cell",
+    "name": "Orf7a_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740573"
+     },
+     "context": {
+      "property": "uniprot:P0DTC7"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N_space_(-)ss_space_sgmRNA_rna",
+    "name": "N_space_(-)ss_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6  (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf6  (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6_rough_space_endoplasmic_space_reticulum",
+    "name": "Orf6_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740572"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf6_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf7a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a_rough_space_endoplasmic_space_reticulum",
+    "name": "Orf7a_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740573"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf8_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a_space_ds_space_sgmRNA_rna",
+    "name": "Orf7a_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf7a_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "M_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740571"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "N (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S_space_ds_space_sgmRNA_rna",
+    "name": "S_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "S_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "S_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "Orf7a_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740573"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf14 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf14 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2_default_compartment",
+    "name": "ACE2_default_compartment",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9BYF1"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "S (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_endosome",
+    "name": "E_endosome",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740570"
+     },
+     "context": {
+      "property": "uniprot:P0DTC4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "ACE2:SPIKE_space_complex_complex_SARS-CoV-2_space_virion",
+    "name": "ACE2:SPIKE_space_complex_complex_SARS-CoV-2_space_virion",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q9BYF1"
+     },
+     "context": {
+      "property": "uniprot:P0DTC2"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CTSB",
+    "name": "CTSB",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P07858"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "CTSL",
+    "name": "CTSL",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "P07711"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M_endosome",
+    "name": "M_endosome",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740571"
+     },
+     "context": {
+      "property": "uniprot:P0DTC5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7b_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf7b_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf14_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf14_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8_rough_space_endoplasmic_space_reticulum",
+    "name": "Orf8_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740577"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "Orf8_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740577"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf9b_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M_epithelial_space_cell",
+    "name": "M_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740571"
+     },
+     "context": {
+      "property": "uniprot:P0DTC5"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf7b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf7a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Nsp11",
+    "name": "Nsp11",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E_epithelial_space_cell",
+    "name": "E_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740570"
+     },
+     "context": {
+      "property": "uniprot:P0DTC4"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S1_endosome",
+    "name": "S1_endosome",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "interpro:IPR002551"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "Orf6_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740572"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a_space_ds_space_sgmRNA_rna",
+    "name": "Orf3a_space_ds_space_sgmRNA_rna",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf3a_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "M (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M_rough_space_endoplasmic_space_reticulum",
+    "name": "M_rough_space_endoplasmic_space_reticulum",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740571"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "name": "Orf3a_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740569"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "name": "Orf8 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDE_default_compartment",
+    "name": "IDE_default_compartment",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_004969"
+     },
+     "context": {
+      "property": "uniprot:P14735"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "IDE_epithelial_space_cell",
+    "name": "IDE_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_004969"
+     },
+     "context": {
+      "property": "uniprot:P14735"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "H+_ion",
+    "name": "H+_ion",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "CHEBI:15378",
+      "property1": "CHEBI:15378"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1_epithelial_space_cell",
+    "name": "SIGMAR1_epithelial_space_cell",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_005866"
+     },
+     "context": {
+      "property": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "NUP210_nucleus",
+    "name": "NUP210_nucleus",
+    "grounding": {
+     "identifiers": {
+      "uniprot": "Q8TEM1"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "SIGMAR1_nucleus",
+    "name": "SIGMAR1_nucleus",
+    "grounding": {
+     "identifiers": {
+      "refseq": "NM_005866"
+     },
+     "context": {
+      "property": "uniprot:Q99720"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "double membrane vesicle viral factory assembly_phenotype",
+    "name": "double membrane vesicle viral factory assembly_phenotype",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "GO:0140526"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "(+)ss gRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "(+)ss gRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {
+      "property": "refseq:NC_045512"
+     }
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "N (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "N (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "M (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "M (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "S (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "S (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "E (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "E (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf6  (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf6  (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7a (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf7a (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf3a (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf8 (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf8 (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "DMV molecular pore_complex",
+    "name": "DMV molecular pore_complex",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf9b (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf9b (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf14 (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf14 (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf7b (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "name": "Orf7b (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "grounding": {
+     "identifiers": {},
+     "context": {}
+    },
+    "initial": 3.0
+   },
+   {
+    "id": "Orf3a_lysosome",
+    "name": "Orf3a_lysosome",
+    "grounding": {
+     "identifiers": {
+      "ncbigene": "43740569"
+     },
+     "context": {}
+    },
+    "initial": 3.0
+   }
+  ],
+  "edges": [
+   {
+    "id": "t1",
+    "source": "Nsp16",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t2",
+    "source": "Nsp9",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t3",
+    "source": "Nsp12",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t4",
+    "source": "Nsp3",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t5",
+    "source": "Nsp7",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t6",
+    "source": "Nsp14",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t7",
+    "source": "Nsp6_endoplasmic reticulum",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t8",
+    "source": "Nsp10",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t9",
+    "source": "Nsp8",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t10",
+    "source": "Nsp2",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t11",
+    "source": "Nsp4_endoplasmic reticulum",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t12",
+    "source": "Nsp15",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t13",
+    "source": "Nsp13",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t14",
+    "source": "ACE2_epithelial_space_cell",
+    "target": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t15",
+    "source": "S_SARS-CoV-2_space_virion",
+    "target": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t16",
+    "source": "Heparan_space_sulfate_simple_molecule",
+    "target": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t17",
+    "source": "Orf7a_SARS-CoV-2_space_virion",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t18",
+    "source": "E_SARS-CoV-2_space_virion",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t19",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t20",
+    "source": "S2_SARS-CoV-2_space_virion",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t21",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t22",
+    "source": "M_SARS-CoV-2_space_virion",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t23",
+    "source": "cholesterol_simple_molecule",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t24",
+    "source": "S2_epithelial_space_cell",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t25",
+    "source": "S1:NRP1_space_complex_complex",
+    "target": "Nucleocapsid_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t26",
+    "source": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "target": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t27",
+    "source": "NRP1",
+    "target": "S1:NRP1_space_complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t28",
+    "source": "S1_default_compartment",
+    "target": "S1:NRP1_space_complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t29",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Replication_space_transcription_space_complex:N_space_oligomer_complex",
+    "sign": true
+   },
+   {
+    "id": "t30",
+    "source": "N_epithelial_space_cell",
+    "target": "Replication_space_transcription_space_complex:N_space_oligomer_complex",
+    "sign": true
+   },
+   {
+    "id": "t31",
+    "source": "ACE2_epithelial_space_cell",
+    "target": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t32",
+    "source": "S_SARS-CoV-2_space_virion",
+    "target": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t33",
+    "source": "Heparan_space_sulfate_simple_molecule",
+    "target": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t34",
+    "source": "Nucleocapsid_complex_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "target": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t35",
+    "source": "Replication_space_transcription_space_complex:N_space_oligomer_complex",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t36",
+    "source": "(+)ss gRNA_rna_epithelial_space_cell",
+    "target": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t37",
+    "source": "Replication_space_transcription_space_complex:N_space_oligomer_complex",
+    "target": "Nucleocapsid_complex_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t38",
+    "source": "(+)ss gRNA_rna_epithelial_space_cell",
+    "target": "Nucleocapsid_complex_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t39",
+    "source": "Nsp4:IDE_complex_epithelial_space_cell",
+    "target": "Nsp4_IDE_complex",
+    "sign": true
+   },
+   {
+    "id": "t40",
+    "source": "Nsp4_epithelial_space_cell",
+    "target": "Nsp4:IDE_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t41",
+    "source": "IDE_epithelial_space_cell",
+    "target": "Nsp4:IDE_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t42",
+    "source": "SARS-CoV2 candidate drugs_complex",
+    "target": "SIGMAR1: drug complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t43",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "SIGMAR1: drug complex_complex",
+    "sign": true
+   },
+   {
+    "id": "t44",
+    "source": "Nsp4_epithelial_space_cell",
+    "target": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t45",
+    "source": "NUP210_endoplasmic reticulum",
+    "target": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t46",
+    "source": "Nsp6_epithelial_space_cell",
+    "target": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t47",
+    "source": "V-ATPase_complex_endoplasmic reticulum",
+    "target": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t48",
+    "source": "V-type_space_proton_space_ATPase_complex",
+    "target": "V-ATPase_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t49",
+    "source": "ATP6AP1",
+    "target": "V-ATPase_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t50",
+    "source": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "target": "Nsp6:SIGMAR1_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t51",
+    "source": "Nsp4:NUP210_complex_endoplasmic reticulum",
+    "target": "Nsp4:NUP210_complex_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t52",
+    "source": "V-ATPase:Nsp6_complex_endoplasmic reticulum",
+    "target": "V-ATPase:Nsp6_complex_endosome",
+    "sign": true
+   },
+   {
+    "id": "t53",
+    "source": "V-ATPase_complex_endoplasmic reticulum",
+    "target": "V-ATPase_complex_endosome",
+    "sign": true
+   },
+   {
+    "id": "t54",
+    "source": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "target": "Nsp6:SIGMAR1_complex_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t55",
+    "source": "NUP210_endoplasmic reticulum",
+    "target": "NUP210:Selinexor_complex",
+    "sign": true
+   },
+   {
+    "id": "t56",
+    "source": "Selinexor_drug",
+    "target": "NUP210:Selinexor_complex",
+    "sign": true
+   },
+   {
+    "id": "t57",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t58",
+    "source": "Nsp6_epithelial_space_cell",
+    "target": "Nsp6:SIGMAR1_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t59",
+    "source": "bafilomycin_space_A1_drug",
+    "target": "ATP6AP1:Bafilomycin_space_A1_complex",
+    "sign": true
+   },
+   {
+    "id": "t60",
+    "source": "ATP6AP1",
+    "target": "ATP6AP1:Bafilomycin_space_A1_complex",
+    "sign": true
+   },
+   {
+    "id": "t61",
+    "source": "Nsp4_epithelial_space_cell",
+    "target": "Nsp4_ALG11_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t62",
+    "source": "ALG11_endoplasmic reticulum",
+    "target": "Nsp4_ALG11_complex_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t63",
+    "source": "RAB7A",
+    "target": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t64",
+    "source": "ARL8B",
+    "target": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t65",
+    "source": "Ca+2_simple_molecule",
+    "target": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t66",
+    "source": "RAB7A",
+    "target": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t67",
+    "source": "ARL8B",
+    "target": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t68",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t69",
+    "source": "ds_space_gRNA_rna",
+    "target": "(-)ss_space_gRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t70",
+    "source": "Nsp1",
+    "target": "Nsp1",
+    "sign": false
+   },
+   {
+    "id": "t71",
+    "source": "S_rough_space_endoplasmic_space_reticulum",
+    "target": "S_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t72",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "Orf9b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t73",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf9b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t74",
+    "source": "E_space_ds_space_sgmRNA_rna",
+    "target": "E_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t75",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf9b_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t76",
+    "source": "Orf9b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf9b_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t77",
+    "source": "M_space_ds_space_sgmRNA_rna",
+    "target": "M_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t78",
+    "source": "Orf9b_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf9b_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t79",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "Orf3a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t80",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf3a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t81",
+    "source": "pp1ab_space_Nsp3-16_endoplasmic reticulum",
+    "target": "pp1ab_space_nsp6-16",
+    "sign": true
+   },
+   {
+    "id": "t82",
+    "source": "E (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "E_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t83",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "E_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t84",
+    "source": "Orf14_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf14_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t85",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "M_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t86",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "M_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t87",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp13",
+    "sign": true
+   },
+   {
+    "id": "t88",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp13",
+    "sign": true
+   },
+   {
+    "id": "t89",
+    "source": "(+)ss_space_gRNA_rna",
+    "target": "pp1a",
+    "sign": true
+   },
+   {
+    "id": "t90",
+    "source": "Host_space_translation_space_complex_complex_epithelial_space_cell",
+    "target": "pp1a",
+    "sign": true
+   },
+   {
+    "id": "t91",
+    "source": "pp1a",
+    "target": "Nsp1",
+    "sign": true
+   },
+   {
+    "id": "t92",
+    "source": "pp1ab",
+    "target": "Nsp1",
+    "sign": true
+   },
+   {
+    "id": "t93",
+    "source": "Orf14_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf14_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t94",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf14_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t95",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "E_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t96",
+    "source": "E_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "E_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t97",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "Orf7b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t98",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf7b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t99",
+    "source": "Nsp15",
+    "target": "Nsp15",
+    "sign": false
+   },
+   {
+    "id": "t100",
+    "source": "pp1ab_space_Nsp3-16_endoplasmic reticulum",
+    "target": "Nsp5_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t101",
+    "source": "Nsp3-4",
+    "target": "Nsp3-4_glycosylated",
+    "sign": true
+   },
+   {
+    "id": "t102",
+    "source": "Nsp3-4_glycosylated",
+    "target": "Nsp3",
+    "sign": true
+   },
+   {
+    "id": "t103",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp7",
+    "sign": true
+   },
+   {
+    "id": "t104",
+    "source": "Nsp5_endoplasmic reticulum",
+    "target": "Nsp7",
+    "sign": true
+   },
+   {
+    "id": "t105",
+    "source": "pp1a_space_Nsp6-11",
+    "target": "Nsp7",
+    "sign": true
+   },
+   {
+    "id": "t106",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp7",
+    "sign": true
+   },
+   {
+    "id": "t107",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp16",
+    "sign": true
+   },
+   {
+    "id": "t108",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp16",
+    "sign": true
+   },
+   {
+    "id": "t109",
+    "source": "Orf8_space_ds_space_sgmRNA_rna",
+    "target": "Orf8_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t110",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp12",
+    "sign": true
+   },
+   {
+    "id": "t111",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp12",
+    "sign": true
+   },
+   {
+    "id": "t112",
+    "source": "pp1a",
+    "target": "Nsp2",
+    "sign": true
+   },
+   {
+    "id": "t113",
+    "source": "pp1ab",
+    "target": "Nsp2",
+    "sign": true
+   },
+   {
+    "id": "t114",
+    "source": "Nucleocapsid_complex_epithelial_space_cell",
+    "target": "(+)ss_space_gRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t115",
+    "source": "Orf6_space_ds_space_sgmRNA_rna",
+    "target": "Orf6_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t116",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "ds_space_gRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t117",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "ds_space_gRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t118",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "M_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t119",
+    "source": "M_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "M_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t120",
+    "source": "FURIN",
+    "target": "S2_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t121",
+    "source": "TMPRSS2",
+    "target": "S2_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t122",
+    "source": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "target": "S2_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t123",
+    "source": "Camostat_space_mesylate_drug",
+    "target": "S2_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t124",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp14",
+    "sign": true
+   },
+   {
+    "id": "t125",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp14",
+    "sign": true
+   },
+   {
+    "id": "t126",
+    "source": "FURIN",
+    "target": "ACE2_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t127",
+    "source": "TMPRSS2",
+    "target": "ACE2_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t128",
+    "source": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "target": "ACE2_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t129",
+    "source": "Camostat_space_mesylate_drug",
+    "target": "ACE2_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t130",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp10",
+    "sign": true
+   },
+   {
+    "id": "t131",
+    "source": "Nsp5_endoplasmic reticulum",
+    "target": "Nsp10",
+    "sign": true
+   },
+   {
+    "id": "t132",
+    "source": "pp1a_space_Nsp6-11",
+    "target": "Nsp10",
+    "sign": true
+   },
+   {
+    "id": "t133",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp10",
+    "sign": true
+   },
+   {
+    "id": "t134",
+    "source": "E_SARS-CoV-2_space_virion",
+    "target": "Orf7a_endosome",
+    "sign": true
+   },
+   {
+    "id": "t135",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "Orf7a_endosome",
+    "sign": true
+   },
+   {
+    "id": "t136",
+    "source": "Orf7a_SARS-CoV-2_space_virion",
+    "target": "Orf7a_endosome",
+    "sign": true
+   },
+   {
+    "id": "t137",
+    "source": "S2_SARS-CoV-2_space_virion",
+    "target": "Orf7a_endosome",
+    "sign": true
+   },
+   {
+    "id": "t138",
+    "source": "M_SARS-CoV-2_space_virion",
+    "target": "Orf7a_endosome",
+    "sign": true
+   },
+   {
+    "id": "t139",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf7b_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t140",
+    "source": "Orf7b_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf7b_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t141",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "N_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t142",
+    "source": "N_space_space_(-)ss_space_sgmRNA_rna",
+    "target": "N_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t143",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp9",
+    "sign": true
+   },
+   {
+    "id": "t144",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp9",
+    "sign": true
+   },
+   {
+    "id": "t145",
+    "source": "pp1a_space_Nsp6-11",
+    "target": "Nsp9",
+    "sign": true
+   },
+   {
+    "id": "t146",
+    "source": "Nsp5_endoplasmic reticulum",
+    "target": "Nsp9",
+    "sign": true
+   },
+   {
+    "id": "t147",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "N_space_space_(-)ss_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t148",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "N_space_space_(-)ss_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t149",
+    "source": "E_rough_space_endoplasmic_space_reticulum",
+    "target": "E_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t150",
+    "source": "pp1ab_space_Nsp3-16_endoplasmic reticulum",
+    "target": "Nsp3-4",
+    "sign": true
+   },
+   {
+    "id": "t151",
+    "source": "pp1a_space_Nsp3-11_endoplasmic reticulum",
+    "target": "Nsp3-4",
+    "sign": true
+   },
+   {
+    "id": "t152",
+    "source": "Orf7b_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf7b_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t153",
+    "source": "(+)ss_space_gRNA_rna",
+    "target": "pp1ab",
+    "sign": true
+   },
+   {
+    "id": "t154",
+    "source": "Host_space_translation_space_complex_complex_epithelial_space_cell",
+    "target": "pp1ab",
+    "sign": true
+   },
+   {
+    "id": "t155",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf3a_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t156",
+    "source": "Orf3a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf3a_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t157",
+    "source": "Orf9b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf9b_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t158",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf9b_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t159",
+    "source": "Orf7a_SARS-CoV-2_space_virion",
+    "target": "Orf7a_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t160",
+    "source": "E_SARS-CoV-2_space_virion",
+    "target": "Orf7a_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t161",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "Orf7a_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t162",
+    "source": "M_SARS-CoV-2_space_virion",
+    "target": "Orf7a_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t163",
+    "source": "cholesterol_simple_molecule",
+    "target": "Orf7a_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t164",
+    "source": "S2_epithelial_space_cell",
+    "target": "Orf7a_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t165",
+    "source": "S1:NRP1_space_complex_complex",
+    "target": "Orf7a_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t166",
+    "source": "N_space_ds_space_sgmRNA_rna",
+    "target": "N_space_(-)ss_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t167",
+    "source": "Orf6  (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf6_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t168",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf6_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t169",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf6_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t170",
+    "source": "Orf6_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf6_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t171",
+    "source": "Orf7a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf7a_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t172",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf7a_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t173",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp8",
+    "sign": true
+   },
+   {
+    "id": "t174",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp8",
+    "sign": true
+   },
+   {
+    "id": "t175",
+    "source": "pp1a_space_Nsp6-11",
+    "target": "Nsp8",
+    "sign": true
+   },
+   {
+    "id": "t176",
+    "source": "Nsp5_endoplasmic reticulum",
+    "target": "Nsp8",
+    "sign": true
+   },
+   {
+    "id": "t177",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp6_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t178",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp6_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t179",
+    "source": "pp1a_space_Nsp6-11",
+    "target": "Nsp6_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t180",
+    "source": "Nsp5_endoplasmic reticulum",
+    "target": "Nsp6_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t181",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf8_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t182",
+    "source": "Orf8_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf8_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t183",
+    "source": "Orf7a_space_ds_space_sgmRNA_rna",
+    "target": "Orf7a_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t184",
+    "source": "M_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "target": "M_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t185",
+    "source": "Host_space_translation_space_complex_complex_epithelial_space_cell",
+    "target": "N_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t186",
+    "source": "N (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "N_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t187",
+    "source": "Nucleocapsid_complex_epithelial_space_cell",
+    "target": "N_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t188",
+    "source": "S_space_ds_space_sgmRNA_rna",
+    "target": "S_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t189",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "S_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t190",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "S_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t191",
+    "source": "Orf7a_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "target": "Orf7a_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t192",
+    "source": "Orf14 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf14_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t193",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf14_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t194",
+    "source": "FURIN",
+    "target": "ACE2_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t195",
+    "source": "TMPRSS2",
+    "target": "ACE2_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t196",
+    "source": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "target": "ACE2_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t197",
+    "source": "Camostat_space_mesylate_drug",
+    "target": "ACE2_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t198",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "Orf8_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t199",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf8_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t200",
+    "source": "S (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "S_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t201",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "S_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t202",
+    "source": "E_SARS-CoV-2_space_virion",
+    "target": "E_endosome",
+    "sign": true
+   },
+   {
+    "id": "t203",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "E_endosome",
+    "sign": true
+   },
+   {
+    "id": "t204",
+    "source": "Orf7a_SARS-CoV-2_space_virion",
+    "target": "E_endosome",
+    "sign": true
+   },
+   {
+    "id": "t205",
+    "source": "S2_SARS-CoV-2_space_virion",
+    "target": "E_endosome",
+    "sign": true
+   },
+   {
+    "id": "t206",
+    "source": "M_SARS-CoV-2_space_virion",
+    "target": "E_endosome",
+    "sign": true
+   },
+   {
+    "id": "t207",
+    "source": "S_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "target": "S_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t208",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "Orf6_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t209",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf6_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t210",
+    "source": "ACE2:SPIKE_space_complex_complex_SARS-CoV-2_space_virion",
+    "target": "S2_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t211",
+    "source": "CTSL",
+    "target": "S2_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t212",
+    "source": "CTSB",
+    "target": "S2_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t213",
+    "source": "E_SARS-CoV-2_space_virion",
+    "target": "M_endosome",
+    "sign": true
+   },
+   {
+    "id": "t214",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "M_endosome",
+    "sign": true
+   },
+   {
+    "id": "t215",
+    "source": "Orf7a_SARS-CoV-2_space_virion",
+    "target": "M_endosome",
+    "sign": true
+   },
+   {
+    "id": "t216",
+    "source": "S2_SARS-CoV-2_space_virion",
+    "target": "M_endosome",
+    "sign": true
+   },
+   {
+    "id": "t217",
+    "source": "M_SARS-CoV-2_space_virion",
+    "target": "M_endosome",
+    "sign": true
+   },
+   {
+    "id": "t218",
+    "source": "Orf7b_space_ds_space_sgmRNA_rna",
+    "target": "Orf7b_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t219",
+    "source": "Orf14_space_ds_space_sgmRNA_rna",
+    "target": "Orf14_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t220",
+    "source": "pp1ab",
+    "target": "pp1ab_space_Nsp3-16_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t221",
+    "source": "pp1a_space_Nsp3-11_endoplasmic reticulum",
+    "target": "pp1a_space_Nsp6-11",
+    "sign": true
+   },
+   {
+    "id": "t222",
+    "source": "FURIN",
+    "target": "S1_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t223",
+    "source": "TMPRSS2",
+    "target": "S1_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t224",
+    "source": "ACE2:SPIKE_space_complex_complex_epithelial_space_cell",
+    "target": "S1_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t225",
+    "source": "Camostat_space_mesylate_drug",
+    "target": "S1_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t226",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "E_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t227",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "E_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t228",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "Orf14_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t229",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf14_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t230",
+    "source": "Orf8_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf8_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t231",
+    "source": "Orf9b_space_ds_space_sgmRNA_rna",
+    "target": "Orf9b_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t232",
+    "source": "Orf7a_SARS-CoV-2_space_virion",
+    "target": "M_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t233",
+    "source": "E_SARS-CoV-2_space_virion",
+    "target": "M_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t234",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "M_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t235",
+    "source": "M_SARS-CoV-2_space_virion",
+    "target": "M_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t236",
+    "source": "cholesterol_simple_molecule",
+    "target": "M_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t237",
+    "source": "S2_epithelial_space_cell",
+    "target": "M_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t238",
+    "source": "S1:NRP1_space_complex_complex",
+    "target": "M_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t239",
+    "source": "Orf7b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf7b_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t240",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf7b_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t241",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf7a_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t242",
+    "source": "Orf7a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf7a_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t243",
+    "source": "Nsp5_endoplasmic reticulum",
+    "target": "Nsp11",
+    "sign": true
+   },
+   {
+    "id": "t244",
+    "source": "pp1a_space_Nsp6-11",
+    "target": "Nsp11",
+    "sign": true
+   },
+   {
+    "id": "t245",
+    "source": "Orf7a_SARS-CoV-2_space_virion",
+    "target": "E_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t246",
+    "source": "E_SARS-CoV-2_space_virion",
+    "target": "E_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t247",
+    "source": "Nucleocapsid_complex_SARS-CoV-2_space_virion",
+    "target": "E_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t248",
+    "source": "M_SARS-CoV-2_space_virion",
+    "target": "E_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t249",
+    "source": "cholesterol_simple_molecule",
+    "target": "E_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t250",
+    "source": "S2_epithelial_space_cell",
+    "target": "E_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t251",
+    "source": "S1:NRP1_space_complex_complex",
+    "target": "E_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t252",
+    "source": "E_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "target": "E_SARS-CoV-2_space_virion",
+    "sign": true
+   },
+   {
+    "id": "t253",
+    "source": "ACE2:SPIKE_space_complex_complex_SARS-CoV-2_space_virion",
+    "target": "S1_endosome",
+    "sign": true
+   },
+   {
+    "id": "t254",
+    "source": "CTSL",
+    "target": "S1_endosome",
+    "sign": true
+   },
+   {
+    "id": "t255",
+    "source": "CTSB",
+    "target": "S1_endosome",
+    "sign": true
+   },
+   {
+    "id": "t256",
+    "source": "Orf6_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf6_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t257",
+    "source": "Orf3a_space_ds_space_sgmRNA_rna",
+    "target": "Orf3a_space_(-)ss_space_sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t258",
+    "source": "pp1a_space_Nsp3-11_endoplasmic reticulum",
+    "target": "Nsp5_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t259",
+    "source": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "target": "Orf7a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t260",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf7a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t261",
+    "source": "Orf7a_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf7a_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t262",
+    "source": "M (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "M_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t263",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "M_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t264",
+    "source": "Orf3a_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf3a_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t265",
+    "source": "Nsp3-4_glycosylated",
+    "target": "Nsp4_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t266",
+    "source": "pp1a",
+    "target": "pp1a_space_Nsp3-11_endoplasmic reticulum",
+    "sign": true
+   },
+   {
+    "id": "t267",
+    "source": "Orf8 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf8_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t268",
+    "source": "Host_space_translation_space_complex_complex_rough_space_endoplasmic_space_reticulum",
+    "target": "Orf8_rough_space_endoplasmic_space_reticulum",
+    "sign": true
+   },
+   {
+    "id": "t269",
+    "source": "(+)ss_space_gRNA_rna",
+    "target": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t270",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "(-)ss_space_gRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t271",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "S_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t272",
+    "source": "S_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "S_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t273",
+    "source": "pp1ab_space_nsp6-16",
+    "target": "Nsp15",
+    "sign": true
+   },
+   {
+    "id": "t274",
+    "source": "Nsp5_epithelial_space_cell",
+    "target": "Nsp15",
+    "sign": true
+   },
+   {
+    "id": "t275",
+    "source": "Replication_space_transcription_space_complex_complex_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf3a_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t276",
+    "source": "Orf3a_space_(-)ss_space_sgmRNA_rna_epithelial_space_cell",
+    "target": "Orf3a_space_ds_space_sgmRNA_rna",
+    "sign": true
+   },
+   {
+    "id": "t277",
+    "source": "M_rough_space_endoplasmic_space_reticulum",
+    "target": "M_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "sign": true
+   },
+   {
+    "id": "t278",
+    "source": "IDE_epithelial_space_cell",
+    "target": "IDE_default_compartment",
+    "sign": true
+   },
+   {
+    "id": "t279",
+    "source": "IDE_epithelial_space_cell",
+    "target": "IDE_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t280",
+    "source": "V-type_space_proton_space_ATPase_complex",
+    "target": "H+_ion",
+    "sign": true
+   },
+   {
+    "id": "t281",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "SIGMAR1_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t282",
+    "source": "NUP210_endoplasmic reticulum",
+    "target": "NUP210_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t283",
+    "source": "SIGMAR1_endoplasmic reticulum",
+    "target": "SIGMAR1_nucleus",
+    "sign": true
+   },
+   {
+    "id": "t284",
+    "source": "Nsp6_endoplasmic reticulum",
+    "target": "double membrane vesicle viral factory assembly_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t285",
+    "source": "Nsp3",
+    "target": "double membrane vesicle viral factory assembly_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t286",
+    "source": "Nsp4_endoplasmic reticulum",
+    "target": "double membrane vesicle viral factory assembly_phenotype",
+    "sign": true
+   },
+   {
+    "id": "t287",
+    "source": "bafilomycin_space_A1_drug",
+    "target": "SARS-CoV2 candidate drugs_complex",
+    "sign": false
+   },
+   {
+    "id": "t288",
+    "source": "ds_space_gRNA_rna",
+    "target": "(+)ss gRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t289",
+    "source": "N_space_ds_space_sgmRNA_rna",
+    "target": "N (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t290",
+    "source": "M_space_ds_space_sgmRNA_rna",
+    "target": "M (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t291",
+    "source": "S_space_ds_space_sgmRNA_rna",
+    "target": "S (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t292",
+    "source": "E_space_ds_space_sgmRNA_rna",
+    "target": "E (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t293",
+    "source": "Orf6_space_ds_space_sgmRNA_rna",
+    "target": "Orf6  (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t294",
+    "source": "Orf7a_space_ds_space_sgmRNA_rna",
+    "target": "Orf7a (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t295",
+    "source": "Orf3a_space_ds_space_sgmRNA_rna",
+    "target": "Orf3a (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t296",
+    "source": "Orf8_space_ds_space_sgmRNA_rna",
+    "target": "Orf8 (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t297",
+    "source": "DMV molecular pore_complex",
+    "target": "Orf7a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t298",
+    "source": "Orf7a (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf7a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t299",
+    "source": "DMV molecular pore_complex",
+    "target": "S (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t300",
+    "source": "S (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "S (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t301",
+    "source": "DMV molecular pore_complex",
+    "target": "Orf6  (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t302",
+    "source": "Orf6  (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf6  (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t303",
+    "source": "DMV molecular pore_complex",
+    "target": "E (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t304",
+    "source": "E (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "E (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t305",
+    "source": "DMV molecular pore_complex",
+    "target": "Orf3a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t306",
+    "source": "Orf3a (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf3a (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t307",
+    "source": "DMV molecular pore_complex",
+    "target": "M (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t308",
+    "source": "M (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "M (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t309",
+    "source": "DMV molecular pore_complex",
+    "target": "Orf8 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t310",
+    "source": "Orf8 (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf8 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t311",
+    "source": "DMV molecular pore_complex",
+    "target": "N (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t312",
+    "source": "N (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "N (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t313",
+    "source": "DMV molecular pore_complex",
+    "target": "(+)ss gRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t314",
+    "source": "(+)ss gRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "(+)ss gRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t315",
+    "source": "DMV molecular pore_complex",
+    "target": "Orf9b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t316",
+    "source": "Orf9b (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf9b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t317",
+    "source": "DMV molecular pore_complex",
+    "target": "Orf14 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t318",
+    "source": "Orf14 (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf14 (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t319",
+    "source": "DMV molecular pore_complex",
+    "target": "Orf7b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t320",
+    "source": "Orf7b (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "target": "Orf7b (+)ss sgmRNA_rna_epithelial_space_cell",
+    "sign": true
+   },
+   {
+    "id": "t321",
+    "source": "Orf9b_space_ds_space_sgmRNA_rna",
+    "target": "Orf9b (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t322",
+    "source": "Orf14_space_ds_space_sgmRNA_rna",
+    "target": "Orf14 (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t323",
+    "source": "Orf7b_space_ds_space_sgmRNA_rna",
+    "target": "Orf7b (+)ss sgmRNA_rna_double_space_membrane_space_vesicle_space_viral_space_factory",
+    "sign": true
+   },
+   {
+    "id": "t324",
+    "source": "Orf3a_endoplasmic_space_reticulum-Golgi_space_intermediate_space_compartment",
+    "target": "Orf3a_lysosome",
+    "sign": true
+   }
+  ],
+  "parameters": []
+ },
+ "semantics": {
+  "ode": {
+   "rates": [],
+   "observables": [],
+   "time": {
+    "id": "t"
+   }
+  }
+ },
+ "metadata": {
+  "annotations": {}
+ }
+}
\ No newline at end of file
diff --git a/tests/test_sbml_qual.py b/tests/test_sbml_qual.py
new file mode 100644
index 000000000..8328b83b6
--- /dev/null
+++ b/tests/test_sbml_qual.py
@@ -0,0 +1,27 @@
+"""
+These tests are smoke tests to determine whether we can convert SBML Qual documents into MIRA
+template models. They do not test for correctness.
+"""
+import requests
+
+from mira.sources.sbml.qual_api import template_model_from_sbml_qual_string
+from mira.sources.biomodels import get_sbml_model
+
+models = ["Apoptosis"]
+BASE_URL = "https://git-r3lab.uni.lu/covid/models/-/raw/master/Executable%20Modules/SBML_qual_build/sbml"
+
+
+def test_qual_models_from_example_repo():
+    for model in models:
+        url = f"{BASE_URL}/{model}_stable.sbml"
+        xml_string = requests.get(url).text
+        tm = template_model_from_sbml_qual_string(xml_string)
+
+
+def test_qual_models_from_biomodels():
+    model_ids = ["BIOMD0000000562"]
+    # Full model list for reference
+    #model_ids = ["BIOMD0000000562", "BIOMD0000000592", "BIOMD0000000593"]
+    for model_id in model_ids:
+        model_text = get_sbml_model(model_id)
+        tm = template_model_from_sbml_qual_string(model_text)