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FreeContact(3pm) User Contributed Perl Documentation FreeContact(3pm)
 

NAME

FreeContact - fast protein contact predictor

SYNOPSIS

  use FreeContact;
  open(EXAMPLE, '<', '/usr/share/doc/libfreecontact-perl/examples/demo_1000.aln') || confess($!);
  my @aln = <EXAMPLE>; chomp(@aln); close(EXAMPLE);
  my $contacts = FreeContact::Predictor->new()->run(ali => \@aln);
  my $predictor = FreeContact::Predictor->new();
  my %parset = FreeContact::get_ps_evfold();
  my $contacts = $predictor->run(ali => \@aln, %parset, num_threads => 1);
  my $predictor = FreeContact::Predictor->new();
  my($aliw, $wtot) = $predictor->get_seq_weights(ali => \@aln, num_threads => 1);
  my $contacts = $predictor->run_with_seq_weights(ali => \@aln, aliw => $aliw, wtot => $wtot, num_threads => 1);

DESCRIPTION

FreeContact is a protein residue contact predictor optimized for speed. Its input is a multiple sequence alignment. FreeContact can function as an accelerated drop-in for the published contact predictors EVfold-mfDCA of DS. Marks (2011) and PSICOV of D. Jones (2011). FreeContact is accelerated by a combination of vector instructions, multiple threads, and faster implementation of key parts. Depending on the alignment, 10-fold or higher speedups are possible.
A sufficiently large alignment is required for meaningful results. As a minimum, an alignment with an effective (after-weighting) sequence count bigger than the length of the query sequence should be used. Alignments with tens of thousands of (effective) sequences are considered good input.
jackhmmer(1) from the hmmer package, or hhblits(1) from hhsuite can be used to generate the alignments, for example.

FreeContact

EXPORT_OK

get_ps_evfold()
Get parameters for EVfold-mfDCA operating mode.
get_ps_psicov()
Get parameters for PSICOV 'improved results' operating mode.
get_ps_psicov_sd()
Get parameters for PSICOV 'sensible default' operating mode. This is much faster than 'improved results' for a slight loss of precision.
These get_ps_() functions return a hash of arguments (clustpc => num,...,rho => num) that can be used with get_seq_weights(), run() or run_with_seq_weights(). The arguments correspond to the published parametrization of the respective method.

FreeContact::Predictor

Constructor

new( dbg => bool )
Creates an "FreeContact::Predictor".

Methods

get_seq_weights()
Defaults for the arguments are obtained with get_ps_evfold().
run(ali => [], clustpc => dbl, density => dbl, gapth => dbl, mincontsep => uint, pseudocnt => dbl, pscnt_weight => dbl, estimate_ivcov => bool, shrink_lambda => dbl, cov20 => bool, apply_gapth => bool, rho => dbl, [veczw => bool], [num_threads => int], [icme_timeout => int], [timing => {}])
Defaults for the arguments are obtained with get_ps_evfold().
ali
Reference to array holding alignment rows as strings. The first row must hold the query, with no gaps.
clustpc
BLOSUM-style clustering similarity threshold [0-1].
icme_timeout
Inverse covariance matrix estimation timeout in seconds. Default: 1800.
The estimation sometimes gets stuck. If the timeout is reached, the run() method dies with "Caught FreeContact timeout exception: ...". You can catch this exception and handle it as needed, e.g. by setting a higher rho value.
num_threads
Number of OpenMP threads to use. If unset, all CPUs are used.
timing
If given, this hash reference is filled with data containing wall clock timing results in seconds:
  {
    num_threads =>  NUM,
    seqw =>         NUM,
    pairfreq =>     NUM,
    shrink =>       NUM,
    inv =>          NUM,
    all =>          NUM
  }
    
run() returns a hash reference of contact prediction results:
  {
    fro => [  # identifier of scoring scheme
      [
        I,    # 0-based index of amino acid i
        J,    # 0-based index of amino acid j
        SCORE # contact score
      ], ...
    ],
    MI => ...,
    l1norm => ...
  }
Use 'fro' scores with EVfold.

AUTHOR

Laszlo Kajan, <lkajan@rostlab.org>

COPYRIGHT AND LICENSE

Copyright (C) 2013 by Laszlo Kajan
This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself, either Perl version 5.10.1 or, at your option, any later version of Perl 5 you may have available.
2013-07-17 perl v5.20.0