-
Notifications
You must be signed in to change notification settings - Fork 19
Ion reports
ion.tsv
column contents are described below. Each row represents a peptide sequence identified in a certain charge and modification state.
Peptide Sequence
peptide amino acid sequence, any modifications not included ('stripped' peptide sequence)
Modified Sequence
peptide sequence including modifications, modified residues are followed by brackets containing the integer mass (in Da) of the residue plus the modification; blank if peptide is unmodified
Peptide Length
number of residues in the peptide sequence
M/Z
calculated (theoretical) peptide mass-to-charge ratio based on identified sequence and modifications
Charge
peptide ion charge state
Observed Mass
calculated mass of the identified peptide (in Da)
Probability
confidence score determined by PeptideProphet, higher values indicate greater confidence
Expectation
expectation value from statistical modeling with PeptideProphet, lower values indicate higher likelihood
Spectral Count
number of corresponding PSMs
Intensity
peptide ion abundance
Assigned Modifications
variable modifications (listed by modification mass in Da) with modified residue and location within the peptide
Observed Modifications
for peptides identified with non-zero delta masses (from open or mass offset searches), modifications mapping to a Unimod entry of the corresponding delta mass are listed here
Protein
protein sequence header corresponding to the identified peptide sequence; this will be the selected razor protein if the peptide maps to multiple proteins (in this case, other mapped proteins are listed in the 'Mapped Proteins' column)
Protein ID
UniProt protein identifier (primary accession number)
Entry Name
entry name for the selected protein
Gene
gene name for the selected protein
Protein Description
name of the selected protein
Mapped Genes
additional genes the identified peptide may originate from
Mapped Proteins
additional proteins the identified peptide maps to
(additional columns for TMT/iTRAQ experiments, each contains relative reporter ion abundances)