/usr/share/perl5/Bio/Tools/CodonTable.pm is in libbio-perl-perl 1.6.924-3.
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# bioperl module for Bio::Tools::CodonTable
#
# Please direct questions and support issues to <bioperl-l@bioperl.org>
#
# Cared for by Heikki Lehvaslaiho <heikki-at-bioperl-dot-org>
#
# Copyright Heikki Lehvaslaiho
#
# You may distribute this module under the same terms as perl itself
# POD documentation - main docs before the code
=head1 NAME
Bio::Tools::CodonTable - Codon table object
=head1 SYNOPSIS
# This is a read-only class for all known codon tables. The IDs are
# the ones used by nucleotide sequence databases. All common IUPAC
# ambiguity codes for DNA, RNA and amino acids are recognized.
use Bio::Tools::CodonTable;
# defaults to ID 1 "Standard"
$myCodonTable = Bio::Tools::CodonTable->new();
$myCodonTable2 = Bio::Tools::CodonTable->new( -id => 3 );
# change codon table
$myCodonTable->id(5);
# examine codon table
print join (' ', "The name of the codon table no.", $myCodonTable->id(4),
"is:", $myCodonTable->name(), "\n");
# print possible codon tables
$tables = Bio::Tools::CodonTable->tables;
while ( ($id,$name) = each %{$tables} ) {
print "$id = $name\n";
}
# translate a codon
$aa = $myCodonTable->translate('ACU');
$aa = $myCodonTable->translate('act');
$aa = $myCodonTable->translate('ytr');
# reverse translate an amino acid
@codons = $myCodonTable->revtranslate('A');
@codons = $myCodonTable->revtranslate('Ser');
@codons = $myCodonTable->revtranslate('Glx');
@codons = $myCodonTable->revtranslate('cYS', 'rna');
# reverse translate an entire amino acid sequence into a IUPAC
# nucleotide string
my $seqobj = Bio::PrimarySeq->new(-seq => 'FHGERHEL');
my $iupac_str = $myCodonTable->reverse_translate_all($seqobj);
# boolean tests
print "Is a start\n" if $myCodonTable->is_start_codon('ATG');
print "Is a terminator\n" if $myCodonTable->is_ter_codon('tar');
print "Is a unknown\n" if $myCodonTable->is_unknown_codon('JTG');
=head1 DESCRIPTION
Codon tables are also called translation tables or genetic codes
since that is what they represent. A bit more complete picture
of the full complexity of codon usage in various taxonomic groups
is presented at the NCBI Genetic Codes Home page.
CodonTable is a BioPerl class that knows all current translation
tables that are used by primary nucleotide sequence databases
(GenBank, EMBL and DDBJ). It provides methods to output information
about tables and relationships between codons and amino acids.
This class and its methods recognized all common IUPAC ambiguity codes
for DNA, RNA and animo acids. The translation method follows the
conventions in EMBL and TREMBL databases.
It is a nuisance to separate RNA and cDNA representations of nucleic
acid transcripts. The CodonTable object accepts codons of both type as
input and allows the user to set the mode for output when reverse
translating. Its default for output is DNA.
Note:
This class deals primarily with individual codons and amino
acids. However in the interest of speed you can L<translate>
longer sequence, too. The full complexity of protein translation
is tackled by L<Bio::PrimarySeqI::translate>.
The amino acid codes are IUPAC recommendations for common amino acids:
A Ala Alanine
R Arg Arginine
N Asn Asparagine
D Asp Aspartic acid
C Cys Cysteine
Q Gln Glutamine
E Glu Glutamic acid
G Gly Glycine
H His Histidine
I Ile Isoleucine
L Leu Leucine
K Lys Lysine
M Met Methionine
F Phe Phenylalanine
P Pro Proline
O Pyl Pyrrolysine (22nd amino acid)
U Sec Selenocysteine (21st amino acid)
S Ser Serine
T Thr Threonine
W Trp Tryptophan
Y Tyr Tyrosine
V Val Valine
B Asx Aspartic acid or Asparagine
Z Glx Glutamine or Glutamic acid
J Xle Isoleucine or Valine (mass spec ambiguity)
X Xaa Any or unknown amino acid
It is worth noting that, "Bacterial" codon table no. 11 produces an
polypeptide that is, confusingly, identical to the standard one. The
only differences are in available initiator codons.
NCBI Genetic Codes home page:
http://www.ncbi.nlm.nih.gov/Taxonomy/Utils/wprintgc.cgi?mode=c
EBI Translation Table Viewer:
http://www.ebi.ac.uk/cgi-bin/mutations/trtables.cgi
Amended ASN.1 version with ids 16 and 21 is at:
ftp://ftp.ebi.ac.uk/pub/databases/geneticcode/
Thanks to Matteo diTomasso for the original Perl implementation
of these tables.
=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 lists 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
the bugs and their resolution. Bug reports can be submitted via the
web:
https://github.com/bioperl/bioperl-live/issues
=head1 AUTHOR - Heikki Lehvaslaiho
Email: heikki-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
# Let the code begin...
package Bio::Tools::CodonTable;
use vars qw(@NAMES @TABLES @STARTS $TRCOL $CODONS %IUPAC_DNA $CODONGAP $GAP
%IUPAC_AA %THREELETTERSYMBOLS $VALID_PROTEIN $TERMINATOR);
use strict;
# Object preamble - inherits from Bio::Root::Root
use Bio::Tools::IUPAC;
use Bio::SeqUtils;
use base qw(Bio::Root::Root);
# first set internal values for all translation tables
BEGIN {
use constant CODONSIZE => 3;
$GAP = '-';
$CODONGAP = $GAP x CODONSIZE;
@NAMES = #id
(
'Standard', #1
'Vertebrate Mitochondrial',#2
'Yeast Mitochondrial',# 3
'Mold, Protozoan, and CoelenterateMitochondrial and Mycoplasma/Spiroplasma',#4
'Invertebrate Mitochondrial',#5
'Ciliate, Dasycladacean and Hexamita Nuclear',# 6
'', '',
'Echinoderm Mitochondrial',#9
'Euplotid Nuclear',#10
'"Bacterial"',# 11
'Alternative Yeast Nuclear',# 12
'Ascidian Mitochondrial',# 13
'Flatworm Mitochondrial',# 14
'Blepharisma Nuclear',# 15
'Chlorophycean Mitochondrial',# 16
'', '', '', '',
'Trematode Mitochondrial',# 21
'Scenedesmus obliquus Mitochondrial', #22
'Thraustochytrium Mitochondrial', #23
'Strict', #24, option for only ATG start
);
@TABLES =
qw(
FFLLSSSSYY**CC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FFLLSSSSYY**CCWWLLLLPPPPHHQQRRRRIIMMTTTTNNKKSS**VVVVAAAADDEEGGGG
FFLLSSSSYY**CCWWTTTTPPPPHHQQRRRRIIMMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FFLLSSSSYY**CCWWLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FFLLSSSSYY**CCWWLLLLPPPPHHQQRRRRIIMMTTTTNNKKSSSSVVVVAAAADDEEGGGG
FFLLSSSSYYQQCC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
'' ''
FFLLSSSSYY**CCWWLLLLPPPPHHQQRRRRIIIMTTTTNNNKSSSSVVVVAAAADDEEGGGG
FFLLSSSSYY**CCCWLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FFLLSSSSYY**CC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FFLLSSSSYY**CC*WLLLSPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FFLLSSSSYY**CCWWLLLLPPPPHHQQRRRRIIMMTTTTNNKKSSGGVVVVAAAADDEEGGGG
FFLLSSSSYYY*CCWWLLLLPPPPHHQQRRRRIIIMTTTTNNNKSSSSVVVVAAAADDEEGGGG
FFLLSSSSYY*QCC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FFLLSSSSYY*LCC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
'' '' '' ''
FFLLSSSSYY**CCWWLLLLPPPPHHQQRRRRIIMMTTTTNNNKSSSSVVVVAAAADDEEGGGG
FFLLSS*SYY*LCC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FF*LSSSSYY**CC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
FFLLSSSSYY**CC*WLLLLPPPPHHQQRRRRIIIMTTTTNNKKSSRRVVVVAAAADDEEGGGG
);
# (bases used for these tables, for reference)
# 1 TTTTTTTTTTTTTTTTCCCCCCCCCCCCCCCCAAAAAAAAAAAAAAAAGGGGGGGGGGGGGGGG
# 2 TTTTCCCCAAAAGGGGTTTTCCCCAAAAGGGGTTTTCCCCAAAAGGGGTTTTCCCCAAAAGGGG
# 3 TCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAGTCAG
@STARTS =
qw(
---M---------------M---------------M----------------------------
--------------------------------MMMM---------------M------------
----------------------------------MM----------------------------
--MM---------------M------------MMMM---------------M------------
---M----------------------------MMMM---------------M------------
-----------------------------------M----------------------------
'' ''
-----------------------------------M----------------------------
-----------------------------------M----------------------------
---M---------------M------------MMMM---------------M------------
-------------------M---------------M----------------------------
-----------------------------------M----------------------------
-----------------------------------M----------------------------
-----------------------------------M----------------------------
-----------------------------------M----------------------------
'' '' '' ''
-----------------------------------M---------------M------------
-----------------------------------M----------------------------
--------------------------------M--M---------------M------------
-----------------------------------M----------------------------
);
my @nucs = qw(t c a g);
my $x = 0;
($CODONS, $TRCOL) = ({}, {});
for my $i (@nucs) {
for my $j (@nucs) {
for my $k (@nucs) {
my $codon = "$i$j$k";
$CODONS->{$codon} = $x;
$TRCOL->{$x} = $codon;
$x++;
}
}
}
%IUPAC_DNA = Bio::Tools::IUPAC->iupac_iub();
%IUPAC_AA = Bio::Tools::IUPAC->iupac_iup();
%THREELETTERSYMBOLS = Bio::SeqUtils->valid_aa(2);
$VALID_PROTEIN = '['.join('',Bio::SeqUtils->valid_aa(0)).']';
$TERMINATOR = '*';
}
sub new {
my($class,@args) = @_;
my $self = $class->SUPER::new(@args);
my($id) =
$self->_rearrange([qw(ID
)],
@args);
$id = 1 if ( ! $id );
$id && $self->id($id);
return $self; # success - we hope!
}
=head2 id
Title : id
Usage : $obj->id(3); $id_integer = $obj->id();
Function: Sets or returns the id of the translation table. IDs are
integers from 1 to 15, excluding 7 and 8 which have been
removed as redundant. If an invalid ID is given the method
returns 0, false.
Example :
Returns : value of id, a scalar, 0 if not a valid
Args : newvalue (optional)
=cut
sub id{
my ($self,$value) = @_;
if( defined $value) {
if ( !(defined $TABLES[$value-1]) or $TABLES[$value-1] eq '') {
$self->warn("Not a valid codon table ID [$value] ");
$value = 0;
}
$self->{'id'} = $value;
}
return $self->{'id'};
}
=head2 name
Title : name
Usage : $obj->name()
Function: returns the descriptive name of the translation table
Example :
Returns : A string
Args : None
=cut
sub name{
my ($self) = @_;
my ($id) = $self->{'id'};
return $NAMES[$id-1];
}
=head2 tables
Title : tables
Usage : $obj->tables() or Bio::Tools::CodonTable->tables()
Function: returns a hash reference where each key is a valid codon
table id() number, and each value is the corresponding
codon table name() string
Example :
Returns : A hashref
Args : None
=cut
sub tables{
my %tables;
for my $id (1 .. @NAMES) {
my $name = $NAMES[$id-1];
$tables{$id} = $name if $name;
}
return \%tables;
}
=head2 translate
Title : translate
Usage : $obj->translate('YTR')
Function: Returns a string of one letter amino acid codes from
nucleotide sequence input. The imput can be of any length.
Returns 'X' for unknown codons and codons that code for
more than one amino acid. Returns an empty string if input
is not three characters long. Exceptions for these are:
- IUPAC amino acid code B for Aspartic Acid and
Asparagine, is used.
- IUPAC amino acid code Z for Glutamic Acid, Glutamine is
used.
- if the codon is two nucleotides long and if by adding
an a third character 'N', it codes for a single amino
acid (with exceptions above), return that, otherwise
return empty string.
Returns empty string for other input strings that are not
three characters long.
Example :
Returns : a string of one letter ambiguous IUPAC amino acid codes
Args : ambiguous IUPAC nucleotide string
=cut
sub translate {
my ($self, $seq, $complete_codon) = @_;
$self->throw("Calling translate without a seq argument!") unless defined $seq;
return '' unless $seq;
my $id = $self->id;
my ($partial) = 0;
$partial = 2 if length($seq) % CODONSIZE == 2;
$seq = lc $seq;
$seq =~ tr/u/t/;
my $protein = "";
if ($seq =~ /[^actg]/ ) { #ambiguous chars
for (my $i = 0; $i < (length($seq) - (CODONSIZE-1)); $i+= CODONSIZE) {
my $triplet = substr($seq, $i, CODONSIZE);
if( $triplet eq $CODONGAP ) {
$protein .= $GAP;
} elsif (exists $CODONS->{$triplet}) {
$protein .= substr($TABLES[$id-1],
$CODONS->{$triplet},1);
} else {
$protein .= $self->_translate_ambiguous_codon($triplet);
}
}
} else { # simple, strict translation
for (my $i = 0; $i < (length($seq) - (CODONSIZE -1)); $i+=CODONSIZE) {
my $triplet = substr($seq, $i, CODONSIZE);
if( $triplet eq $CODONGAP ) {
$protein .= $GAP;
} if (exists $CODONS->{$triplet}) {
$protein .= substr($TABLES[$id-1], $CODONS->{$triplet}, 1);
} else {
$protein .= 'X';
}
}
}
if ($partial == 2 && $complete_codon) { # 2 overhanging nucleotides
my $triplet = substr($seq, ($partial -4)). "n";
if( $triplet eq $CODONGAP ) {
$protein .= $GAP;
} elsif (exists $CODONS->{$triplet}) {
my $aa = substr($TABLES[$id-1], $CODONS->{$triplet},1);
$protein .= $aa;
} else {
$protein .= $self->_translate_ambiguous_codon($triplet, $partial);
}
}
return $protein;
}
sub _translate_ambiguous_codon {
my ($self, $triplet, $partial) = @_;
$partial ||= 0;
my $id = $self->id;
my $aa;
my @codons = $self->unambiguous_codons($triplet);
my %aas =();
foreach my $codon (@codons) {
$aas{substr($TABLES[$id-1],$CODONS->{$codon},1)} = 1;
}
my $count = scalar keys %aas;
if ( $count == 1 ) {
$aa = (keys %aas)[0];
}
elsif ( $count == 2 ) {
if ($aas{'D'} and $aas{'N'}) {
$aa = 'B';
}
elsif ($aas{'E'} and $aas{'Q'}) {
$aa = 'Z';
} else {
$partial ? ($aa = '') : ($aa = 'X');
}
} else {
$partial ? ($aa = '') : ($aa = 'X');
}
return $aa;
}
=head2 translate_strict
Title : translate_strict
Usage : $obj->translate_strict('ACT')
Function: returns one letter amino acid code for a codon input
Fast and simple translation. User is responsible to resolve
ambiguous nucleotide codes before calling this
method. Returns 'X' for unknown codons and an empty string
for input strings that are not three characters long.
It is not recommended to use this method in a production
environment. Use method translate, instead.
Example :
Returns : A string
Args : a codon = a three nucleotide character string
=cut
sub translate_strict{
my ($self, $value) = @_;
my $id = $self->{'id'};
$value = lc $value;
$value =~ tr/u/t/;
return '' unless length $value == 3;
return 'X' unless defined $CODONS->{$value};
return substr( $TABLES[$id-1], $CODONS->{$value}, 1 );
}
=head2 revtranslate
Title : revtranslate
Usage : $obj->revtranslate('G')
Function: returns codons for an amino acid
Returns an empty string for unknown amino acid
codes. Ambiguous IUPAC codes Asx,B, (Asp,D; Asn,N) and
Glx,Z (Glu,E; Gln,Q) are resolved. Both single and three
letter amino acid codes are accepted. '*' and 'Ter' are
used for terminator.
By default, the output codons are shown in DNA. If the
output is needed in RNA (tr/t/u/), add a second argument
'RNA'.
Example : $obj->revtranslate('Gly', 'RNA')
Returns : An array of three lower case letter strings i.e. codons
Args : amino acid, 'RNA'
=cut
sub revtranslate {
my ($self, $value, $coding) = @_;
my @codons;
if (length($value) == 3 ) {
$value = lc $value;
$value = ucfirst $value;
$value = $THREELETTERSYMBOLS{$value};
}
if ( defined $value and $value =~ /$VALID_PROTEIN/
and length($value) == 1 ) {
my $id = $self->{'id'};
$value = uc $value;
my @aas = @{$IUPAC_AA{$value}};
foreach my $aa (@aas) {
#print $aa, " -2\n";
$aa = '\*' if $aa eq '*';
while ($TABLES[$id-1] =~ m/$aa/g) {
my $p = pos $TABLES[$id-1];
push (@codons, $TRCOL->{--$p});
}
}
}
if ($coding and uc ($coding) eq 'RNA') {
for my $i (0..$#codons) {
$codons[$i] =~ tr/t/u/;
}
}
return @codons;
}
=head2 reverse_translate_all
Title : reverse_translate_all
Usage : my $iup_str = $cttable->reverse_translate_all($seq_object)
my $iup_str = $cttable->reverse_translate_all($seq_object,
$cutable,
15);
Function: reverse translates a protein sequence into IUPAC nucleotide
sequence. An 'X' in the protein sequence is converted to 'NNN'
in the nucleotide sequence.
Returns : a string
Args : a Bio::PrimarySeqI compatible object (mandatory)
a Bio::CodonUsage::Table object and a threshold if only
codons with a relative frequency above the threshold are
to be considered.
=cut
sub reverse_translate_all {
my ($self, $obj, $cut, $threshold) = @_;
## check args are OK
if (!$obj || !$obj->isa('Bio::PrimarySeqI')){
$self->throw(" I need a Bio::PrimarySeqI object, not a [".
ref($obj) . "]");
}
if($obj->alphabet ne 'protein') {
$self->throw("Cannot reverse translate, need an amino acid sequence .".
"This sequence is of type [" . $obj->alphabet ."]");
}
my @data;
my @seq = split '', $obj->seq;
## if we're not supplying a codon usage table...
if( !$cut && !$threshold) {
## get lists of possible codons for each aa.
for my $aa (@seq) {
if ($aa =~ /x/i) {
push @data, (['NNN']);
}else {
my @cods = $self->revtranslate($aa);
push @data, \@cods;
}
}
}else{
#else we are supplying a codon usage table, we just want common codons
#check args first.
if(!$cut->isa('Bio::CodonUsage::Table')) {
$self->throw("I need a Bio::CodonUsage::Table object, not a [".
ref($cut). "].");
}
my $cod_ref = $cut->probable_codons($threshold);
for my $aa (@seq) {
if ($aa =~ /x/i) {
push @data, (['NNN']);
next;
}
push @data, $cod_ref->{$aa};
}
}
return $self->_make_iupac_string(\@data);
}
=head2 reverse_translate_best
Title : reverse_translate_best
Usage : my $str = $cttable->reverse_translate_best($seq_object,$cutable);
Function: Reverse translates a protein sequence into plain nucleotide
sequence (GATC), uses the most common codon for each amino acid
Returns : A string
Args : A Bio::PrimarySeqI compatible object and a Bio::CodonUsage::Table object
=cut
sub reverse_translate_best {
my ($self, $obj, $cut) = @_;
if (!$obj || !$obj->isa('Bio::PrimarySeqI')){
$self->throw(" I need a Bio::PrimarySeqI object, not a [".
ref($obj) . "]");
}
if ($obj->alphabet ne 'protein') {
$self->throw("Cannot reverse translate, need an amino acid sequence .".
"This sequence is of type [" . $obj->alphabet ."]");
}
if ( !$cut | !$cut->isa('Bio::CodonUsage::Table')) {
$self->throw("I need a Bio::CodonUsage::Table object, not a [".
ref($cut). "].");
}
my $str = '';
my @seq = split '', $obj->seq;
my $cod_ref = $cut->most_common_codons();
for my $aa ( @seq ) {
if ($aa =~ /x/i) {
$str .= 'NNN';
next;
}
if ( defined $cod_ref->{$aa} ) {
$str .= $cod_ref->{$aa};
} else {
$self->throw("Input sequence contains invalid character: $aa");
}
}
$str;
}
=head2 is_start_codon
Title : is_start_codon
Usage : $obj->is_start_codon('ATG')
Function: returns true (1) for all codons that can be used as a
translation start, false (0) for others.
Example : $myCodonTable->is_start_codon('ATG')
Returns : boolean
Args : codon
=cut
sub is_start_codon{
shift->_codon_is( shift, \@STARTS, 'M' );
}
=head2 is_ter_codon
Title : is_ter_codon
Usage : $obj->is_ter_codon('GAA')
Function: returns true (1) for all codons that can be used as a
translation tarminator, false (0) for others.
Example : $myCodonTable->is_ter_codon('ATG')
Returns : boolean
Args : codon
=cut
sub is_ter_codon{
shift->_codon_is( shift, \@TABLES, $TERMINATOR );
}
# desc: compares the passed value with a single entry in the given
# codon table
# args: a value (typically a three-char string like 'atg'),
# a reference to the appropriate set of codon tables,
# a single-character value to check for at the position in the
# given codon table
# ret: boolean, true if the given codon table contains the $key at the
# position corresponding to $value
sub _codon_is {
my ($self, $value, $table, $key ) = @_;
return 0 unless length $value == 3;
$value = lc $value;
$value =~ tr/u/t/;
my $id = $self->{'id'};
for my $c ( $self->unambiguous_codons($value) ) {
my $m = substr( $table->[$id-1], $CODONS->{$c}, 1 );
return 0 unless $m eq $key;
}
return 1;
}
=head2 is_unknown_codon
Title : is_unknown_codon
Usage : $obj->is_unknown_codon('GAJ')
Function: returns false (0) for all codons that are valid,
true (1) for others.
Example : $myCodonTable->is_unknown_codon('NTG')
Returns : boolean
Args : codon
=cut
sub is_unknown_codon{
my ($self, $value) = @_;
$value = lc $value;
$value =~ tr/u/t/;
return 1 unless $self->unambiguous_codons($value);
return 0;
}
=head2 unambiguous_codons
Title : unambiguous_codons
Usage : @codons = $self->unambiguous_codons('ACN')
Returns : array of strings (one-letter unambiguous amino acid codes)
Args : a codon = a three IUPAC nucleotide character string
=cut
sub unambiguous_codons{
my ($self,$value) = @_;
my @nts = map { $IUPAC_DNA{uc $_} } split(//, $value);
my @codons;
for my $i ( @{$nts[0]} ) {
for my $j ( @{$nts[1]} ) {
for my $k ( @{$nts[2]} ) {
push @codons, lc "$i$j$k";
}}}
return @codons;
}
=head2 _unambiquous_codons
deprecated, now an alias for unambiguous_codons
=cut
sub _unambiquous_codons {
unambiguous_codons( undef, @_ );
}
=head2 add_table
Title : add_table
Usage : $newid = $ct->add_table($name, $table, $starts)
Function: Add a custom Codon Table into the object.
Know what you are doing, only the length of
the argument strings is checked!
Returns : the id of the new codon table
Args : name, a string, optional (can be empty)
table, a string of 64 characters
startcodons, a string of 64 characters, defaults to standard
=cut
sub add_table {
my ($self, $name, $table, $starts) = @_;
$name ||= 'Custom'. scalar @NAMES + 1;
$starts ||= $STARTS[0];
$self->throw('Suspect input!')
unless length($table) == 64 and length($starts) == 64;
push @NAMES, $name;
push @TABLES, $table;
push @STARTS, $starts;
return scalar @NAMES;
}
sub _make_iupac_string {
my ($self, $cod_ref) = @_;
if(ref($cod_ref) ne 'ARRAY') {
$self->throw(" I need a reference to a list of references to codons, ".
" not a [". ref($cod_ref) . "].");
}
my %iupac_hash = Bio::Tools::IUPAC->iupac_rev_iub();
my $iupac_string = ''; ## the string to be returned
for my $aa (@$cod_ref) {
## scan through codon positions, record the differing values,
# then look up in the iub hash
for my $index(0..2) {
my %h;
map { my $k = substr($_,$index,1);
$h{$k} = undef;} @$aa;
my $lookup_key = join '', sort{$a cmp $b}keys %h;
## extend string
$iupac_string .= $iupac_hash{uc$lookup_key};
}
}
return $iupac_string;
}
1;
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