oddcomp

 

Function

Finds protein sequence regions with a biased composition

Description

oddcomp searches a series of protein files, reporting the identifier for those that exceed a certain amino acid composition threshold in a portion of the sequence.

oddcomp was written to answer the question 'which proteins contain at least n X and m Y in p residues'.

One could search for serine rich or polyglutamine rich, collagen helix, or similar proteins using this program.

oddcomp takes as input an amino acid composition data file in the same format as the output from compseq. It can tolerate any word length within reason for the memory capacity of the machine in question. Only the first two fields in the composition data file are used: the word and the number of occurrences. Any word not mentioned is initialised to a threshold of zero.

oddcomp measures the amino acid composition (this can be dimers etc as well as monomers) in a sliding window. If and when composition meets or exceeds all the specified thresholds, the sequence is reported and oddcomp moves to the next sequence. It does not report where in the sequence it found the matching region, merely the sequence ID.

oddcomp was originally written to identify SR/RS containing proteins. eg. specifying a window of forty amino acids containing at least 3 SR and 4 RS words.

To search for a specific set of words in a sequence, edit the input composition data file to delete any words from the input file in which you are not interested. The search is a boolean AND so there must be (from the short example above) at least 3 SR AND at least 4 RS for the sequence to be reported. If your total words specified exceeds window-wordlength+1 you will never get any hits.

Only one word size can be used and is specified at the top of the file in compseq-style output.

Usage

An example of the use of oddcomp to search for entries in swissprot with at least 1 SR AND at least 2 RS follows:

% oddcomp
Finds protein sequence regions with a biased composition
Input sequence(s): sw:*
Output file [5h1d_fugru.oddcomp]: out.odd
Input file: test.comp
Window size to consider (e.g. 30 aa) [30]: 

Command line arguments

   Mandatory qualifiers:
  [-sequence]          seqall     Sequence database USA
  [-compdata]          infile     This is a file in the format of the output
                                  produced by 'compseq' that is used to set
                                  the minimum frequencies of words in this
                                  analysis.
  [-window]            integer    This is the size of window in which to
                                  count.
                                  Thus if you want to count frequencies in a
                                  40 aa stretch you should enter 40 here.
  [-outfile]           outfile    This is the results file.

   Optional qualifiers: (none)
   Advanced qualifiers:
   -[no]ignorebz       boolean    The amino acid code B represents Asparagine
                                  or Aspartic acid and the code Z represents
                                  Glutamine or Glutamic acid.
                                  These are not commonly used codes and you
                                  may wish not to count words containing them,
                                  just noting them in the count of 'Other'
                                  words.

   General qualifiers:
  -help                boolean    Report command line options. More
                                  information on associated and general
                                  qualifiers can be found with -help -verbose


Mandatory qualifiers Allowed values Default
[-sequence]
(Parameter 1)
Sequence database USA Readable sequence(s) Required
[-compdata]
(Parameter 2)
This is a file in the format of the output produced by 'compseq' that is used to set the minimum frequencies of words in this analysis. Input file Required
[-window]
(Parameter 3)
This is the size of window in which to count. Thus if you want to count frequencies in a 40 aa stretch you should enter 40 here. Integer 10 or more 30
[-outfile]
(Parameter 4)
This is the results file. Output file <sequence>.oddcomp
Optional qualifiers Allowed values Default
(none)
Advanced qualifiers Allowed values Default
-[no]ignorebz The amino acid code B represents Asparagine or Aspartic acid and the code Z represents Glutamine or Glutamic acid. These are not commonly used codes and you may wish not to count words containing them, just noting them in the count of 'Other' words. Yes/No Yes

Input file format

The data file ('test.comp') used in the example follows:
# Example input file for oddcomp
Word size       2
Total count     0

#
# Word  Obs Count       Obs Frequency   Exp Frequency   Obs/Exp Frequency
#
RS      2               0               0               0
SR      1               0               0               0

Other   0               0               0               0

The columns "Obs Frequency", "Exp Frequency" and "Obs/Exp Frequency" are not required - they were simply included in this example to show the similarity between this input file format and the output of the program compseq. A compseq output file can be used as the input to oddcomp - the extra columns are ignored by oddcomp.

A minimal composition input data file would look like this:


Word size       2
Total count     0
RS      2
SR      1

Blank lines and lines starting with '#' are ignored.

The first non-comment line should start with 'Word size' and will specify the word size to use.

A line starting with the word 'Total' is required.

Anything after the line starting with the word 'Total' will be read as word count data.

Word count data consists of a word to search for and the count of that word to search for within the sliding window. The columns are separated by one or more spaces or TAB characters. Anything after these two columns will be ignored.

Output file format

A list of sequence name identifiers.

The output from the above example follows:


#
# Output from 'oddcomp'
#
# The Expected frequencies are taken from the file: test.comp
#
#       Word size: 2
        CB1B_FUGRU
        CO9_FUGRU
        FOS_FUGRU
        RS7_FUGRU

#       END     #

Data files

None.

Notes

None.

References

None.

Warnings

None.

Diagnostic Error Messages

None.

Exit status

It always exits with a status of 0.

Known bugs

None.

See also

Program nameDescription
antigenicFinds antigenic sites in proteins
digestProtein proteolytic enzyme or reagent cleavage digest
fuzzproProtein pattern search
fuzztranProtein pattern search after translation
helixturnhelixReport nucleic acid binding motifs
patmatdbSearch a protein sequence with a motif
patmatmotifsSearch a PROSITE motif database with a protein sequence
pepcoilPredicts coiled coil regions
pregRegular expression search of a protein sequence
pscanScans proteins using PRINTS
sigcleaveReports protein signal cleavage sites

Author(s)

This application was written by David Martin (david.martin@biotek.uio.no) at the Norwegian EMBnet node.

History

Written (1999) - David Martin

Target users

This program is intended to be used by everyone and everything, from naive users to embedded scripts.

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