# $Id: Table.pm 16123 2009-09-17 12:57:27Z cjfields $ # # BioPerl module for Bio::CodonUsage::Table # # Please direct questions and support issues to # # Cared for by Richard Adams (richard.adams@ed.ac.uk) # # Copyright Richard Adams # # You may distribute this module under the same terms as perl itself # POD documentation - main docs before the code =head1 NAME Bio::CodonUsage::Table - for access to the Codon usage Database at http://www.kazusa.or.jp/codon. =head1 SYNOPSIS use Bio::CodonUsage::Table; use Bio::DB::CUTG; use Bio::CodonUsage::IO; use Bio::Tools::SeqStats; # Get a codon usage table from web database my $cdtable = Bio::DB::CUTG->new(-sp => 'Mus musculus', -gc => 1); # Or from local file my $io = Bio::CodonUsage::IO->new(-file => "file"); my $cdtable = $io->next_data(); # Or create your own from a Bio::PrimarySeq compliant object, # $codonstats is a ref to a hash of codon name /count key-value pairs my $codonstats = Bio::Tools::SeqStats->count_codons($Seq_objct); # '-data' must be specified, '-species' and 'genetic_code' are optional my $CUT = Bio::CodonUsage::Table->new(-data => $codonstats, -species => 'Hsapiens_kinase'); print "leu frequency is ", $cdtable->aa_frequency('LEU'), "\n"; print "freq of ATG is ", $cdtable->codon_rel_frequency('ttc'), "\n"; print "abs freq of ATG is ", $cdtable->codon_abs_frequency('ATG'), "\n"; print "number of ATG codons is ", $cdtable->codon_count('ATG'), "\n"; print "GC content at position 1 is ", $cdtable->get_coding_gc('1'), "\n"; print "total CDSs for Mus musculus is ", $cdtable->cds_count(), "\n"; =head1 DESCRIPTION This class provides methods for accessing codon usage table data. All of the methods at present are simple look-ups of the table or are derived from simple calculations from the table. Future methods could include measuring the codon usage of a sequence , for example, or provide methods for examining codon usage in alignments. =head1 SEE ALSO L, L, L, L =head1 FEEDBACK =head2 Mailing Lists User feedback is an integral part of the evolution of this and other Bioperl modules. Send your comments and suggestions preferably to one of the Bioperl mailing lists. Your participation is much appreciated. bioperl-l@bioperl.org - General discussion http://bioperl.org/wiki/Mailing_lists - About the mailing lists =head2 Support Please direct usage questions or support issues to the mailing list: I rather than to the module maintainer directly. Many experienced and reponsive experts will be able look at the problem and quickly address it. Please include a thorough description of the problem with code and data examples if at all possible. =head2 Reporting Bugs Report bugs to the Bioperl bug tracking system to help us keep track the bugs and their resolution. Bug reports can be submitted via the web: http://bugzilla.open-bio.org/ =head1 AUTHORS Richard Adams, Richard.Adams@ed.ac.uk =head1 APPENDIX The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _ =cut # Let the code begin... package Bio::CodonUsage::Table; use strict; use vars qw(%STRICTAA @AA); use Bio::SeqUtils; use Bio::Tools::CodonTable; use base qw(Bio::Root::Root); BEGIN{ @AA = qw(A C D E F G H I K L M N P Q R S T V W Y *); map {$STRICTAA{$_} = undef} @AA; } =head2 new Title : new Usage : my $cut = Bio::CodonUsage::Table->new(-data => $cut_hash_ref, -species => 'H.sapiens_kinase' -genetic_code =>1); Returns : a reference to a new Bio::CodonUsage::Table object Args : none or a reference to a hash of codon counts. This constructor is designed to be compatible with the output of Bio::Tools::SeqUtils::count_codons() Species and genetic code parameters can be entered here or via the species() and genetic_code() methods separately. =cut sub new { my ($class, @args) = @_; my $self= $class->SUPER::new(@args); if (@args) { $self->_rearrange([qw(DATA)], @args); shift @args; # get rid of key my $arg = shift @args; $self->throw("need a hash reference, not a [" . ref($arg). "] reference") if ref($arg) ne 'HASH'; ### flags to detect argument type, can be either to start with ## my $is_codon_hash = 1; my $is_Aa_hash = 1; for my $k (keys %$arg) { ## convert to UC $k =~ s/(\w+)/\U$1/; if (!exists($STRICTAA{$k}) ){ $is_Aa_hash = 0; } elsif ($k =~ /[^ATCGatcg]/) { $is_codon_hash = 0; } } if (!$is_codon_hash && !$is_Aa_hash) { $self->throw(" invalid key values in CUT hash - must be unique aa or nucleotide identifiers"); } elsif ($is_Aa_hash) { $self->_init_from_aa($arg); } elsif($is_codon_hash) { $self->_init_from_cod($arg); } while (@args) { my $key = shift @args; $key =~ s/\-(\w+)/\L$1/; $self->$key(shift @args); } } return $self; } =head2 all_aa_frequencies Title : all_aa_frequencies Usage : my $freq = $cdtable->all_aa_frequencies(); Returns : a reference to a hash where each key is an amino acid and each value is its frequency in all proteins in that species. Args : none =cut sub all_aa_frequencies { my $self = shift; my %aa_freqs =(); for my $aa (keys %STRICTAA) { my $freq = $self->aa_frequency($aa); $aa_freqs{$aa} = $freq; } return \%aa_freqs; } =head2 codon_abs_frequency Title : codon_abs_frequency Usage : my $freq = $cdtable->codon_abs_frequency('CTG'); Purpose : To return the frequency of that codon as a percentage of all codons in the organism. Returns : a percentage frequency Args : a non-ambiguous codon string =cut sub codon_abs_frequency { my ($self, $a) = @_; my $cod = uc $a; if ($self->_check_codon($cod)) { my $ctable = Bio::Tools::CodonTable->new; $ctable->id($self->genetic_code() ); my $aa =$Bio::SeqUtils::THREECODE {$ctable->translate($cod)}; return $self->{'_table'}{$aa}{$cod}{'per1000'}/10 ; } else {return 0;} } =head2 codon_rel_frequency Title : codon_rel_frequency Usage : my $freq = $cdtable->codon_rel_frequency('CTG'); Purpose : To return the frequency of that codon as a percentage of codons coding for the same amino acid. E.g., ATG and TGG would return 100 as those codons are unique. Returns : a percentage frequency Args : a non-ambiguous codon string =cut sub codon_rel_frequency { my ($self, $a) = @_; my $cod = uc $a; if ($self->_check_codon($cod)) { my $ctable = Bio::Tools::CodonTable->new; $ctable->id($self->genetic_code () ); my $aa =$Bio::SeqUtils::THREECODE {$ctable->translate($cod)}; return $self->{'_table'}{$aa}{$cod}{'rel_freq'}; } else { return 0; } } =head2 probable_codons Title : probable_codons Usage : my $prob_codons = $cd_table->probable_codons(10); Purpose : to obtain a list of codons for the amino acid above a given threshold % relative frequency Returns : A reference to a hash where keys are 1 letter amino acid codes and values are references to arrays of codons whose frequency is above the threshold. Arguments: a minimum threshold frequency =cut sub probable_codons { my ($self, $threshold) = @_; if (!$threshold || $threshold < 0 || $threshold > 100) { $self->throw(" I need a threshold percentage "); } my %return_hash; for my $a(keys %STRICTAA) { my @common_codons; my $aa =$Bio::SeqUtils::THREECODE{$a}; for my $codon (keys %{ $self->{'_table'}{$aa}}) { if ($self->{'_table'}{$aa}{$codon}{'rel_freq'} > $threshold/100){ push @common_codons, $codon; } } $return_hash{$a} = \@common_codons; } ## check to make sure that all codons are populated ## if (grep{scalar @{$return_hash{$_}} == 0} keys %return_hash) { $self->warn("Threshold is too high, some amino acids do not" . " have any codon above the threshold!"); } return \%return_hash; } =head2 most_common_codons Title : most_common_codons Usage : my $common_codons = $cd_table->most_common_codons(); Purpose : To obtain the most common codon for a given amino acid Returns : A reference to a hash where keys are 1 letter amino acid codes and the values are the single most common codons for those amino acids Arguments: None =cut sub most_common_codons { my $self = shift; my %return_hash; for my $a ( keys %STRICTAA ) { my $common_codon = ''; my $rel_freq = 0; my $aa = $Bio::SeqUtils::THREECODE{$a}; if ( ! defined $self->{'_table'}{$aa} ) { $self->warn("Amino acid $aa ($a) does not have any codons!"); next; } for my $codon ( keys %{ $self->{'_table'}{$aa}} ) { if ($self->{'_table'}{$aa}{$codon}{'rel_freq'} > $rel_freq ){ $common_codon = $codon; $rel_freq = $self->{'_table'}{$aa}{$codon}{'rel_freq'}; } } $return_hash{$a} = $common_codon; } return \%return_hash; } =head2 codon_count Title : codon_count Usage : my $count = $cdtable->codon_count('CTG'); Purpose : To obtain the absolute number of the codons in the organism. Returns : an integer Args : a non-ambiguous codon string =cut sub codon_count { my $self = shift; if (@_) { my $a = shift; my $cod = uc $a; if ($self->_check_codon($cod)) { my $ctable = Bio::Tools::CodonTable->new; $ctable->id($self->genetic_code()); my $aa =$Bio::SeqUtils::THREECODE {$ctable->translate($cod)}; return $self->{'_table'}{$aa}{$cod}{'abs_count'}; } else {return 0;} } else { $self->warn(" need to give a codon sequence as a parameter "); return 0; } } =head2 get_coding_gc Title : get_coding_gc Usage : my $count = $cdtable->get_coding_gc(1); Purpose : To return the percentage GC composition for the organism at codon positions 1,2 or 3, or an average for all coding sequence ('all'). Returns : a number (%-age GC content) or 0 if these fields are undefined Args : 1,2,3 or 'all'. =cut sub get_coding_gc { my $self = shift; if (! @_) { $self->warn(" no parameters supplied must be a codon position (1,2,3) or 'all'"); return 0; } else{ my $n = shift; ##return request if valid ## if ( exists($self->{'_coding_gc'}{$n} ) ) { return sprintf("%.2f", $self->{'_coding_gc'}{$n}); } ##else return 'all' value if exists elsif (exists($self->{'_coding_gc'}{'all'} )) { $self->warn("coding gc doesn't have value for [$n], returning gc content for all CDSs"); return sprintf("%.2f", $self->{'_coding_gc'}{'all'}); } ### else return 0, else { $self->warn("coding gc values aren't defined, returning 0"); return 0; } }#end of outer else } =head2 set_coding_gc Title : set_coding_gc Usage : my $count = $cdtable->set_coding_gc(-1=>55.78); Purpose : To set the percentage GC composition for the organism at codon positions 1,2 or 3, or an average for all coding sequence ('all'). Returns : void Args : a hash where the key must be 1,2,3 or 'all' and the value the %age GC at that codon position.. =cut sub set_coding_gc { my ($self, $key, $value) = @_; my @allowed = qw(1 2 3 all); $key =~ s/\-//; if (!grep {$key eq $_} @allowed ) { $self->warn ("invalid key! - must be one of [ ". (join " ", @allowed) . "]"); return; } $self->{'_coding_gc'}{$key} = $value; } =head2 species Title : species Usage : my $sp = $cut->species(); Purpose : Get/setter for species name of codon table Returns : Void or species name string Args : None or species name string =cut sub species { my $self = shift; if (@_ ){ $self->{'_species'} = shift; } return $self->{'_species'} || "unknown"; } =head2 genetic_code Title : genetic_code Usage : my $sp = $cut->genetic_code(); Purpose : Get/setter for genetic_code name of codon table Returns : Void or genetic_code id, 1 by default Args : None or genetic_code id, 1 by default if invalid argument. =cut sub genetic_code { my $self = shift; if (@_ ){ my $val = shift; if ($val < 0 || $val >16 || $val =~ /[^\d]/ || $val ==7 || $val ==8) { $self->warn ("invalid genetic code - must be 1-16 but not 7 or 8,setting to default [1]"); $self->{'_genetic_code'} = 1; } else { $self->{'_genetic_code'} = shift; } } return $self->{'_genetic_code'} || 1; } =head2 cds_count Title : cds_count Usage : my $count = $cdtable->cds_count(); Purpose : To retrieve the total number of CDSs used to generate the Codon Table for that organism. Returns : an integer Args : none (if retrieving the value) or an integer( if setting ). =cut sub cds_count { my $self= shift; if (@_) { my $val = shift; if ($val < 0) { $self->warn("can't have negative count initializing to 1"); $self->{'_cds_count'} = 0.00; } else{ $self->{'_cds_count'} = $val; } } $self->warn("cds_count value is undefined, returning 0") if !exists($self->{'_cds_count'}); return $self->{'_cds_count'} || 0.00; } =head2 aa_frequency Title : aa_frequency Usage : my $freq = $cdtable->aa_frequency('Leu'); Purpose : To retrieve the frequency of an amino acid in the organism Returns : a percentage Args : a 1 letter or 3 letter string representing the amino acid =cut sub aa_frequency { my ($self, $a) = @_; ## process args ## ## deal with cases ## my $aa = lc $a; $aa =~ s/^(\w)/\U$1/; if (!exists($STRICTAA{$aa}) && !exists($Bio::SeqUtils::ONECODE{$aa}) ) { $self->warn("Invalid amino acid! must be a unique 1 letter or 3 letter identifier"); return; } #translate to 3 letter code for Ctable # my $aa3 = $Bio::SeqUtils::THREECODE{$aa} || $aa; ## return % of all amino acids in organism ## my $freq = 0; map {$freq += $self->{'_table'}{$aa3}{$_}{'per1000'} } keys %{$self->{'_table'}{$aa3}}; return sprintf("%.2f", $freq/10); } =head2 common_codon Title : common_codon Usage : my $freq = $cdtable->common_codon('Leu'); Purpose : To retrieve the frequency of the most common codon of that aa Returns : a percentage Args : a 1 letter or 3 letter string representing the amino acid =cut sub common_codon{ my ($self, $a) = @_; my $aa = lc $a; $aa =~ s/^(\w)/\U$1/; if ($self->_check_aa($aa)) { my $aa3 = $Bio::SeqUtils::THREECODE{$aa} ; $aa3 ||= $aa; my $max = 0; for my $cod (keys %{$self->{'_table'}{$aa3}}) { $max = ($self->{'_table'}{$aa3}{$cod}{'rel_freq'} > $max) ? $self->{'_table'}{$aa3}{$cod}{'rel_freq'}:$max; } return $max; }else {return 0;} } =head2 rare_codon Title : rare_codon Usage : my $freq = $cdtable->rare_codon('Leu'); Purpose : To retrieve the frequency of the least common codon of that aa Returns : a percentage Args : a 1 letter or 3 letter string representing the amino acid =cut sub rare_codon { my ($self, $a) = @_; my $aa = lc $a; $aa =~ s/^(\w)/\U$1/; if ($self->_check_aa($aa)) { my $aa3 = $Bio::SeqUtils::THREECODE{$aa}; $aa3 ||= $aa; my $min = 1; for my $cod (keys %{$self->{'_table'}{$aa3}}) { $min = ($self->{'_table'}{$aa3}{$cod}{'rel_freq'} < $min) ? $self->{'_table'}{$aa3}{$cod}{'rel_freq'}:$min; } return $min; }else {return 0;} } ## internal sub that checks a codon is correct format sub _check_aa { my ($self, $aa ) = @_; if (!exists($STRICTAA{$aa}) && !exists($Bio::SeqUtils::ONECODE{$aa}) ) { $self->warn("Invalid amino acid! must be a unique 1 letter or 3 letter identifier"); return 0; }else {return 1;} } sub _check_codon { my ($self, $cod) = @_; if ($cod =~ /[^ATCG]/ || $cod !~ /\w\w\w/) { $self->warn(" impossible codon - must be 3 letters and just containing ATCG"); return 0; } else {return 1;} } sub _init_from_cod { ## make hash based on aa and then send to _init_from_aa my ($self, $ref) = @_; my $ct = Bio::Tools::CodonTable->new(); my %aa_hash; for my $codon(keys %$ref ) { my $aa = $ct->translate($codon); $aa_hash{$aa}{$codon} = $ref->{$codon}; } $self->_init_from_aa(\%aa_hash); } sub _init_from_aa { my ($self, $ref) = @_; ## abs counts and count codons my $total_codons = 0; my %threeletter; map{$threeletter{$Bio::SeqUtils::THREECODE{$_}} = $ref->{$_} } keys %$ref; $ref = \%threeletter; for my $aa (keys %$ref) { for my $cod(keys %{$ref->{$aa}} ) { $self->{'_table'}{$aa}{$cod}{'abs_count'} = $ref->{$aa}{$cod}; $total_codons += $ref->{$aa}{$cod}; } } ## now calculate abs codon frequencies for my $aa (keys %$ref) { for my $cod(keys %{$ref->{$aa}} ) { $self->{'_table'}{$aa}{$cod}{'per1000'} = sprintf("%.2f",$ref->{$aa}{$cod} /$total_codons * 1000) ; } } ## now calculate rel codon_frequencies for my $aa (keys %$ref) { my $aa_freq = 0; map{$aa_freq += $ref->{$aa}{$_} } keys %{$ref->{$aa}}; for my $cod(keys %{$ref->{$aa}} ) { $self->{'_table'}{$aa}{$cod}{'rel_freq'}= sprintf("%.2f",$ref->{$aa}{$cod}/ $aa_freq ); } } ## now calculate gc fields my %GC; for my $aa (keys %$ref) { for my $cod(keys %{$ref->{$aa}} ) { for my $index (qw(1 2 3) ) { if (substr ($cod, $index -1, 1) =~ /g|c/oi) { $GC{$index} += $ref->{$aa}{$cod}; } } } } my $tot = 0; map{$tot += $GC{$_}} qw(1 2 3); $self->set_coding_gc('all', $tot/(3 *$total_codons) * 100); map{$self->set_coding_gc($_,$GC{$_}/$total_codons * 100)} qw(1 2 3); ## return $self; } sub _gb_db { my $self = shift; return $self->{'_gd_db'} || "unknown"; } 1;