/usr/share/perl5/Bio/Align/Utilities.pm is in libbio-perl-perl 1.6.924-1.
This file is owned by root:root, with mode 0o644.
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use strict;
use warnings;
use Carp;
use Bio::Root::Version;
use Exporter 'import';
our @EXPORT_OK = qw(
aa_to_dna_aln
bootstrap_replicates
cat
bootstrap_replicates_codons
dna_to_aa_aln
most_common_sequences
);
our %EXPORT_TAGS = (all => \@EXPORT_OK);
#
# BioPerl module for Bio::Align::Utilities
#
# Please direct questions and support issues to <bioperl-l@bioperl.org>
#
# Cared for by Jason Stajich <jason-at-bioperl.org> and Brian Osborne
#
# Copyright Jason Stajich
#
# You may distribute this module under the same terms as perl itself
# POD documentation - main docs before the code
=head1 NAME
Bio::Align::Utilities - A collection of utilities regarding converting
and manipulating alignment objects
=head1 SYNOPSIS
use Bio::Align::Utilities qw(:all);
# Even if the protein alignments are local make sure the start/end
# stored in the LocatableSeq objects are to the full length protein.
# The coding sequence that is passed in should still be the full
# length CDS as the nt alignment will be generated.
# %dnaseqs is a hash of CDS sequences (spliced)
my $dna_aln = aa_to_dna_aln($aa_aln,\%dnaseqs);
# The reverse, which is simpler. The input alignment has to be
# translate-able, with gap lengths and an overall length divisible by 3
my $aa_aln = dna_to_aa_aln($dna_al);
# Generate bootstraps
my $replicates = bootstrap_replicates($aln,$count);
=head1 DESCRIPTION
This module contains utility methods for manipulating sequence
alignments (L<Bio::Align::AlignI>) objects.
The B<aa_to_dna_aln> utility is essentially the same as the B<mrtrans>
program by Bill Pearson available at
ftp://ftp.virginia.edu/pub/fasta/other/mrtrans.shar. Of course this
is a pure-Perl implementation, but just to mention that if anything
seems odd you can check the alignments generated against Bill's
program.
=head1 FEEDBACK
=head2 Mailing Lists
User feedback is an integral part of the evolution of this and other
Bioperl modules. Send your comments and suggestions preferably to
the Bioperl mailing list. Your participation is much appreciated.
bioperl-l@bioperl.org - General discussion
http://bioperl.org/wiki/Mailing_lists - About the mailing lists
=head2 Support
Please direct usage questions or support issues to the mailing list:
I<bioperl-l@bioperl.org>
rather than to the module maintainer directly. Many experienced and
reponsive experts will be able look at the problem and quickly
address it. Please include a thorough description of the problem
with code and data examples if at all possible.
=head2 Reporting Bugs
Report bugs to the Bioperl bug tracking system to help us keep track
of the bugs and their resolution. Bug reports can be submitted via the
web:
https://github.com/bioperl/bioperl-live/issues
=head1 AUTHOR - Jason Stajich
Email jason-at-bioperl-dot-org
=head1 APPENDIX
The rest of the documentation details each of the object methods.
Internal methods are usually preceded with a _
=cut
use constant CODONSIZE => 3;
our $GAP = '-';
our $CODONGAP = $GAP x CODONSIZE;
=head2 aa_to_dna_aln
Title : aa_to_dna_aln
Usage : my $dnaaln = aa_to_dna_aln($aa_aln, \%seqs);
Function: Will convert an AA alignment to DNA space given the
corresponding DNA sequences. Note that this method expects
the DNA sequences to be in frame +1 (GFF frame 0) as it will
start to project into coordinates starting at the first base of
the DNA sequence, if this alignment represents a different
frame for the cDNA you will need to edit the DNA sequences
to remove the 1st or 2nd bases (and revcom if things should be).
Returns : Bio::Align::AlignI object
Args : 2 arguments, the alignment and a hashref.
Alignment is a Bio::Align::AlignI of amino acid sequences.
The hash reference should have keys which are
the display_ids for the aa
sequences in the alignment and the values are a
Bio::PrimarySeqI object for the corresponding
spliced cDNA sequence.
See also: L<Bio::Align::AlignI>, L<Bio::SimpleAlign>, L<Bio::PrimarySeq>
=cut
sub aa_to_dna_aln {
my ( $aln, $dnaseqs ) = @_;
unless ( defined $aln
&& ref($aln)
&& $aln->isa('Bio::Align::AlignI') )
{
croak(
'Must provide a valid Bio::Align::AlignI object as the first argument to aa_to_dna_aln, see the documentation for proper usage and the method signature'
);
}
my $alnlen = $aln->length;
my $dnaalign = Bio::SimpleAlign->new();
$aln->map_chars( '\.', $GAP );
foreach my $seq ( $aln->each_seq ) {
my $aa_seqstr = $seq->seq();
my $id = $seq->display_id;
my $dnaseq =
$dnaseqs->{$id} || $aln->throw( "cannot find " . $seq->display_id );
my $start_offset = ( $seq->start - 1 ) * CODONSIZE;
$dnaseq = $dnaseq->seq();
my $dnalen = $dnaseqs->{$id}->length;
my $nt_seqstr;
my $j = 0;
for ( my $i = 0 ; $i < $alnlen ; $i++ ) {
my $char = substr( $aa_seqstr, $i + $start_offset, 1 );
if ( $char eq $GAP || $j >= $dnalen ) {
$nt_seqstr .= $CODONGAP;
}
else {
$nt_seqstr .= substr( $dnaseq, $j, CODONSIZE );
$j += CODONSIZE;
}
}
$nt_seqstr .= $GAP x ( ( $alnlen * 3 ) - length($nt_seqstr) );
my $newdna = Bio::LocatableSeq->new(
-display_id => $id,
-alphabet => 'dna',
-start => $start_offset + 1,
-end => ( $seq->end * CODONSIZE ),
-strand => 1,
-seq => $nt_seqstr
);
$dnaalign->add_seq($newdna);
}
return $dnaalign;
}
=head2 dna_to_aa_aln
Title : dna_to_aa_aln
Usage : my $aa_aln = dna_to_aa_aln($dna_aln);
Function: Convert a DNA alignment to an amino acid alignment where
the length of all alignment strings and the lengths of any
gaps must be divisible by 3
Returns : Bio::Align::AlignI object
Args : the DNA alignment, a Bio::Align::AlignI of DNA sequences
See also: L<Bio::Align::AlignI>, L<Bio::SimpleAlign>, L<Bio::PrimarySeq>
=cut
sub dna_to_aa_aln {
my $dna_aln = shift;
unless ( defined $dna_aln
&& ref($dna_aln)
&& $dna_aln->isa('Bio::Align::AlignI') ) {
croak(
'Must provide a valid Bio::Align::AlignI object as the argument to dna_to_aa_aln'
);
}
my $codon_table = Bio::Tools::CodonTable->new;
my $aa_aln = Bio::SimpleAlign->new;
for my $seq ( $dna_aln->each_seq ) {
my ($aa_str, $aa_len);
my @aln_str = split '', $seq->seq;
croak("All lines in the alignment must have lengths divisible by 3")
if ( scalar(@aln_str) % CODONSIZE );
while ( @aln_str ) {
my $triplet = join '', (splice( @aln_str, 0, CODONSIZE ));
if ( $triplet =~ /^[GATC]+$/i ) {
$aa_str .= $codon_table->translate($triplet);
$aa_len++;
}
elsif ( $triplet =~ /^[$Bio::LocatableSeq::GAP_SYMBOLS]+$/ ) {
$aa_str .= $GAP;
}
else {
croak("The triplet '$triplet' is neither a valid codon nor all gaps");
}
}
my $new_aa = Bio::LocatableSeq->new(
-display_id => $seq->display_id,
-alphabet => 'protein',
-start => 1,
-end => $aa_len,
-strand => 1,
-seq => $aa_str
);
$aa_aln->add_seq($new_aa);
}
$aa_aln;
}
=head2 bootstrap_replicates
Title : bootstrap_replicates
Usage : my $alns = &bootstrap_replicates($aln,100);
Function: Generate a pseudo-replicate of the data by randomly
sampling, with replacement, the columns from an alignment for
the non-parametric bootstrap.
Returns : Arrayref of L<Bio::SimpleAlign> objects
Args : L<Bio::SimpleAlign> object
Number of replicates to generate
=cut
sub bootstrap_replicates {
my ( $aln, $count ) = @_;
$count ||= 1;
my $alen = $aln->length;
my ( @seqs, @nm );
$aln->set_displayname_flat(1);
for my $s ( $aln->each_seq ) {
push @seqs, $s->seq();
push @nm, $s->id;
}
my ( @alns, $i );
while ( $count-- > 0 ) {
my @newseqs;
for ( $i = 0 ; $i < $alen ; $i++ ) {
my $index = int( rand($alen) );
my $c = 0;
for (@seqs) {
$newseqs[ $c++ ] .= substr( $_, $index, 1 );
}
}
my $newaln = Bio::SimpleAlign->new();
my $i = 0;
for my $s (@newseqs) {
( my $tmp = $s ) =~ s/[$Bio::LocatableSeq::GAP_SYMBOLS]+//g;
$newaln->add_seq(
Bio::LocatableSeq->new(
-start => 1,
-end => length($tmp),
-display_id => $nm[ $i++ ],
-seq => $s
)
);
}
push @alns, $newaln;
}
return \@alns;
}
=head2 bootstrap_replicates_codons
Title : bootstrap_replicates_codons
Usage : my $alns = &bootstrap_replicates_codons($aln,100);
Function: Generate a pseudo-replicate of the data by randomly
sampling, with replacement, the columns from a codon alignment for
the non-parametric bootstrap. The alignment is assumed to start on
the first position of a codon.
Returns : Arrayref of L<Bio::SimpleAlign> objects
Args : L<Bio::SimpleAlign> object
Number of replicates to generate
=cut
sub bootstrap_replicates_codons {
my ( $aln, $count ) = @_;
$count ||= 1;
my $alen = $aln->length;
my $ncodon = int( $alen / 3 );
my ( @seqs, @nm );
$aln->set_displayname_flat(1);
for my $s ( $aln->each_seq ) {
push @seqs, $s->seq();
push @nm, $s->id;
}
my ( @alns, $i );
while ( $count-- > 0 ) {
my @newseqs;
for ( $i = 0 ; $i < $ncodon ; $i++ ) {
my $index = int( rand($ncodon) );
my $seqpos = $index * 3;
my $c = 0;
for (@seqs) {
$newseqs[ $c++ ] .= substr( $_, $seqpos, 3 );
}
}
my $newaln = Bio::SimpleAlign->new();
my $i = 0;
for my $s (@newseqs) {
( my $tmp = $s ) =~ s{[$Bio::LocatableSeq::GAP_SYMBOLS]+}{}g;
$newaln->add_seq(
Bio::LocatableSeq->new(
-start => 1,
-end => length($tmp),
-display_id => $nm[ $i++ ],
-seq => $s
)
);
}
push @alns, $newaln;
}
return \@alns;
}
=head2 cat
Title : cat
Usage : $aln123 = cat($aln1, $aln2, $aln3)
Function : Concatenates alignment objects. Sequences are identified by id.
An error will be thrown if the sequence ids are not unique in the
first alignment. If any ids are not present or not unique in any
of the additional alignments then those sequences are omitted from
the concatenated alignment, and a warning is issued. An error will
be thrown if any of the alignments are not flush, since
concatenating such alignments is unlikely to make biological
sense.
Returns : A new Bio::SimpleAlign object
Args : A list of Bio::SimpleAlign objects
=cut
sub cat {
my ( $self, @aln ) = @_;
$self->throw("cat method called with no arguments") unless $self;
for ( $self, @aln ) {
$self->throw( $_->id . " is not a Bio::Align::AlignI object" )
unless $_->isa('Bio::Align::AlignI');
$self->throw( $_->id . " is not flush" ) unless $_->is_flush;
}
my $aln = $self->new;
$aln->id( $self->id );
$aln->annotation( $self->annotation );
my %unique;
SEQ: foreach my $seq ( $self->each_seq() ) {
throw( "ID: ", $seq->id, " is not unique in initial alignment." )
if exists $unique{ $seq->id };
$unique{ $seq->id } = 1;
# Can be Bio::LocatableSeq, Bio::Seq::Meta or Bio::Seq::Meta::Array
my $new_seq = $seq->new(
-id => $seq->id,
-strand => $seq->strand,
-verbose => $self->verbose
);
$new_seq->seq( $seq->seq );
$new_seq->start( $seq->start );
$new_seq->end( $seq->end );
if ( $new_seq->isa('Bio::Seq::MetaI') ) {
for my $meta_name ( $seq->meta_names ) {
$new_seq->named_submeta( $meta_name, $new_seq->start,
$new_seq->end, $seq->named_meta($meta_name) );
}
}
for my $cat_aln (@aln) {
my @cat_seq = $cat_aln->each_seq_with_id( $seq->id );
if ( @cat_seq == 0 ) {
$self->warn( $seq->id
. " not found in alignment "
. $cat_aln->id
. ", skipping this sequence." );
next SEQ;
}
if ( @cat_seq > 1 ) {
$self->warn( $seq->id
. " found multiple times in alignment "
. $cat_aln->id
. ", skipping this sequence." );
next SEQ;
}
my $cat_seq = $cat_seq[0];
my $old_end = $new_seq->end;
$new_seq->seq( $new_seq->seq . $cat_seq->seq );
# Not sure if this is a sensible way to deal with end coordinates
$new_seq->end(
$new_seq->end + $cat_seq->end + 1 - $cat_seq->start );
if ( $cat_seq->isa('Bio::Seq::Meta::Array') ) {
unless ( $new_seq->isa('Bio::Seq::Meta::Array') ) {
my $meta_seq = Bio::Seq::Meta::Array->new;
$meta_seq->seq( $new_seq->seq );
$meta_seq->start( $new_seq->start );
$meta_seq->end( $new_seq->end );
if ( $new_seq->isa('Bio::Seq::Meta') ) {
for my $meta_name ( $new_seq->meta_names ) {
$meta_seq->named_submeta(
$meta_name,
$new_seq->start,
$old_end,
[
split(
//, $new_seq->named_meta($meta_name)
)
]
);
}
}
$new_seq = $meta_seq;
}
for my $meta_name ( $cat_seq->meta_names ) {
$new_seq->named_submeta( $meta_name, $old_end + 1,
$new_seq->end, $cat_seq->named_meta($meta_name) );
}
}
elsif ( $cat_seq->isa('Bio::Seq::Meta') ) {
if ( $new_seq->isa('Bio::Seq::Meta::Array') ) {
for my $meta_name ( $cat_seq->meta_names ) {
$new_seq->named_submeta( $meta_name, $old_end + 1,
$new_seq->end,
[ split( //, $cat_seq->named_meta($meta_name) ) ] );
}
}
else {
unless ( $new_seq->isa('Bio::Seq::Meta') ) {
my $meta_seq = Bio::Seq::Meta::Array->new;
$meta_seq->seq( $new_seq->seq );
$meta_seq->start( $new_seq->start );
$meta_seq->end( $new_seq->end );
$new_seq = $meta_seq;
}
for my $meta_name ( $cat_seq->meta_names ) {
$new_seq->named_submeta( $meta_name, $old_end + 1,
$new_seq->end, $cat_seq->named_meta($meta_name) );
}
}
}
}
$aln->add_seq($new_seq);
}
my $cons_meta = $self->consensus_meta;
my $new_cons_meta;
if ($cons_meta) {
$new_cons_meta = Bio::Seq::Meta->new();
for my $meta_name ( $cons_meta->meta_names ) {
$new_cons_meta->named_submeta( $meta_name, 1, $self->length,
$cons_meta->$meta_name );
}
}
my $end = $self->length;
for my $cat_aln (@aln) {
my $cat_cons_meta = $cat_aln->consensus_meta;
if ($cat_cons_meta) {
$new_cons_meta = Bio::Seq::Meta->new() if !$new_cons_meta;
for my $meta_name ( $cat_cons_meta->meta_names ) {
$new_cons_meta->named_submeta(
$meta_name, $end + 1,
$end + $cat_aln->length,
$cat_cons_meta->$meta_name
);
}
}
$end += $cat_aln->length;
}
$aln->consensus_meta($new_cons_meta) if $new_cons_meta;
return $aln;
}
=head2 most_common_sequences
Title : most_common_sequences
Usage : @common = most_common_sequences ($align, $case_sensitivity)
Function : Returns an array of the sequences that appear most often in the
alignment (although this probably makes more sense when there is
only a single most common sequence). Sequences are compared after
removing any "-" (gap characters), and ambiguous units (e.g., R
for purines) are only compared to themselves. The returned
sequence is also missing the "-" since they don't actually make
part of the sequence.
Returns : Array of text strings.
Arguments : Optional argument defining whether the comparison between sequences
to find the most common should be case sensitive. Defaults to
false, i.e, not case sensitive.
=cut
sub most_common_sequences {
my $align = shift
or croak ("Must provide Bio::AlignI object to Bio::Align::Utilities::most_common_sequences");
my $case_sensitive = shift; # defaults to false (we get undef if nothing)
## We keep track of the max on this loop. Saves us having to
## transverse the hash table later to find the maximum value.
my $max = 0;
my %counts;
foreach ($align->each_seq) {
(my $seq = $_->seq) =~ tr/-//d;
$seq = uc ($seq) unless $case_sensitive;
$max++ if (++$counts{$seq} > $max);
}
my @common = grep ($counts{$_} == $max, keys %counts);
return @common;
}
1;
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