Copyright © 2007. Last modified: 2008-02-15.
You can perform a restrictive search
with InsPecT, where a collection of pre-specified modifications
are permitted, or an unrestrictive (or "blind") search, using the
MS-Alignment algorithm, to discover unanticipated modifications
and point mutations.
PepNovo serves as a high throughput de novo peptide sequencing
tool for tandem mass spectrometry data.
InsPecT is a tool for interpreting peptide
tandem mass spectra. Inspect searches spectra against a protein database. For
each spectrum, Inspect reports the database peptide which best explains the
spectrum, as well as a score indicating the confidence of this match.
Inspect was developed at the University of California, San Diego and the project
homepage is
http://peptide.ucsd.edu/. Inspect is free for educational, research, and
non-profit purposes.
MS-Alignment algorithm for "blind" spectral
search, with no bias toward anticipated modification types. This search has been
applied to annotate heavily-modified proteins such as crystallins.
PepNovo uses a probabilistic network to model
the peptide fragmentation events in a mass spectrometer. The de novo sequencing
method is useful where the traditional database search cannot be used. For instance,
to be able to offer the relevant candidate peptides for a database search, the target
organism's genome must be sequenced and many organisms are still not sequenced.
PepNovo was developed at the University of California, San Diego and the project
homepage is
http://peptide.ucsd.edu/. PepNovo is free for educational, research, and
non-profit purposes.
Accepted formats: mzXML (preferred), dta, pkl, and mgf.
Archived files (zip, gz, bz2, tar.gz, tar.bz2) are supported too; you can put multiple
spectrum files of an experiment in a single arvhie.
The chemical modification used to treat the cysteine residues
in the peptide (typically a +57 Carbamidomethylation is used).
Specifies the name of a protease. "Trypsin",
"None", and "Chymotrypsin" are the available values. If tryptic digest
is specified, then matches with non-tryptic termini are penalized.
Specify the parent mass tolerance, in Daltons. A candidate's
flanking mass can differ from the tag's flanking mass by no more than ths amount.
Default value is 2. Note that secondary ions are often selected for fragmentation,
so parent mass errors near 1.0Da or -1.0Da are not uncommon in typical datasets,
even on FT machines
How far b and y peaks can be shifted from their
expected masses. Default is 0.5. Higher values produce a more sensitive but much
slower search.
The type of mass spectrometer used to generate the experimental spectra.
ESI-ION-TRAP (default) - InsPecT attempts to correct the parent mass.
QTOF - InsPecT uses a fragmentation model trained on QTOF data. (QTOF
data typically features a stronger y ladder and weaker b ladder than
other spectra).
High accuracy LTQ - an FT-LTQ or an orbitrap.
Suggested values here are 1 and 2.
Residues must be a string of abbreviation letters for standard amino acid
(i.e. ACDEFGHIKLMNOPQRSTUVWY). Fill in this field with an asterisk
* if any residue will fit in your experiment.
Specify the minimum modification size (in Daltons) to
consider. (default -200).
Specify the maximum modification size (in Daltons) to
consider. Large values require more time to search (default 200).
Select a database to search. As databases are updated
regularly, the timestamp of the last modification is specified in paranthesis.
For faster searches InsPecT uses internally the (.trie) file format.
Specify the name of a FASTA-format protein database to search.
Searches a small database of common protein contaminants of proteomics searches:
trypsin (TRYP_PIG, TRYP_BOVIN) and keratin (K22E_HUMAN, K22O_HUMAN, K2C1_HUMAN,
K2C3_HUMAN, K2C7_HUMAN, K1C1_HUMAN)
Each real sequence in the database is shuffled to produce a decoy sequence.
The presence of decoy sequences makes post-processing more reliable.
When job is done, you will get a notofication via the email
address you specify here.