# $Id: Glimmer.pm 16123 2009-09-17 12:57:27Z cjfields $ # # BioPerl module for Bio::Tools::Glimmer # # Please direct questions and support issues to # # Cared for by Jason Stajich # # 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::Tools::Glimmer - parser for Glimmer 2.X/3.X prokaryotic and GlimmerM/GlimmerHMM eukaryotic gene predictions =head1 SYNOPSIS use Bio::Tools::Glimmer; # file my $parser = Bio::Tools::Glimmer->new(-file => $file); # filehandle: $parser = Bio::Tools::Glimmer->new( -fh => \*INPUT ); # provide a sequence identifier (Glimmer 2.X) my $parser = Bio::Tools::Glimmer->new(-file => $file, -seqname => seqname); # force format (override automatic detection) my $parser = Bio::Tools::Glimmer->new(-file => $file, -format => 'GlimmerM'); # parse the results # note: this class is-a Bio::Tools::AnalysisResult which implements # Bio::SeqAnalysisParserI, i.e., $glimmer->next_feature() is the same while(my $gene = $parser->next_prediction()) { # For eukaryotic input (GlimmerM/GlimmerHMM), $gene will be an instance # of Bio::Tools::Prediction::Gene, which inherits off # Bio::SeqFeature::Gene::Transcript, and $gene->exons() will return an # array of Bio::Tools::Prediction::Exon objects. # For prokaryotic input (Glimmer2.X/Glimmer3.X), $gene will be an # instance of Bio::SeqFeature::Generic # all exons (eukaryotic only): @exon_arr = $gene->exons(); # initial exons only @init_exons = $gene->exons('Initial'); # internal exons only @intrl_exons = $gene->exons('Internal'); # terminal exons only @term_exons = $gene->exons('Terminal'); } =head1 DESCRIPTION This is a module for parsing Glimmer, GlimmerM and GlimmerHMM predictions. It will create gene objects from the prediction report which can be attached to a sequence using Bioperl objects, or output as GFF suitable for loading into Bio::DB::GFF for use with Gbrowse. Glimmer is open source and available at L. GlimmerM is open source and available at L. GlimmerHMM is open source and available at L. Note that Glimmer 2.X will only process the first sequence in a fasta file, and the prediction report does not contain any sort of sequence identifier Note that Glimmer 3.X produces two output files. This module only parses the .predict file. =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 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 email or the web: http://bugzilla.open-bio.org/ =head1 AUTHOR - Jason Stajich Email jason-at-bioperl-dot-org =head1 CONTRIBUTORS Torsten Seemann Mark Johnson =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::Glimmer; use strict; use Bio::Factory::FTLocationFactory; use Bio::Tools::Prediction::Gene; use Bio::Tools::Prediction::Exon; use base qw(Bio::Tools::AnalysisResult); sub _initialize_state { my($self,@args) = @_; # first call the inherited method! my $make = $self->SUPER::_initialize_state(@args); $self->{'_preds_parsed'} = 0; # array of pre-parsed predictions $self->{'_preds'} = []; } =head2 new Title : new Usage : my $obj = Bio::Tools::Glimmer->new(); Function: Builds a new Bio::Tools::Glimmer object Returns : an instance of Bio::Tools::Glimmer Args : format ('Glimmer', 'GlimmerM', 'GlimmerHMM'), seqname =cut sub new { my($class,@args) = @_; my $self = $class->SUPER::new(@args); my ($format, $seqname, $seqlength, $detail) = $self->_rearrange([qw(FORMAT SEQNAME SEQLENGTH DETAIL)], @args); # override automagic format detection if (defined($format) && (($format eq 'Glimmer') || ($format eq 'GlimmerM') || ($format eq 'GlimmerHMM')) ) { $self->_format($format); } if (defined($detail)) { $self->_format('Glimmer'); $self->_detail_file($detail); } # hardwire seq_id when creating gene and exon objects (Glimmer 2.X) $self->_seqname($seqname) if defined($seqname); # store the length of the input sequence (Glimmer 2.X) $self->_seqlength($seqlength) if defined($seqlength); return $self; } =head2 analysis_method Usage : $glimmer->analysis_method(); Purpose : Inherited method. Overridden to ensure that the name matches /glimmer/i. Returns : String Argument : n/a =cut #------------- sub analysis_method { #------------- my ($self, $method) = @_; if($method && ($method !~ /glimmer/i)) { $self->throw("method $method not supported in " . ref($self)); } return $self->SUPER::analysis_method($method); } =head2 next_feature Title : next_feature Usage : while($gene = $glimmer->next_feature()) { # do something } Function: Returns the next gene structure prediction of the Glimmer result file. Call this method repeatedly until FALSE is returned. The returned object is actually a SeqFeatureI implementing object. This method is required for classes implementing the SeqAnalysisParserI interface, and is merely an alias for next_prediction() at present. Example : Returns : A Bio::Tools::Prediction::Gene object. Args : =cut sub next_feature { my ($self,@args) = @_; # even though next_prediction doesn't expect any args (and this method # does neither), we pass on args in order to be prepared if this changes # ever return $self->next_prediction(@args); } =head2 next_prediction Title : next_prediction Usage : while($gene = $glimmer->next_prediction()) { # do something } Function: Returns the next gene structure prediction of the Glimmer result file. Call this method repeatedly until FALSE is returned. Example : Returns : A Bio::Tools::Prediction::Gene object. Args : =cut sub next_prediction { my ($self) = @_; my $gene; # if the prediction section hasn't been parsed yet, we do this now $self->_parse_predictions() unless $self->_predictions_parsed(); # get next gene structure $gene = $self->_prediction(); return $gene; } =head2 _parse_predictions Title : _parse_predictions() Usage : $obj->_parse_predictions() Function: Parses the prediction section. Automatically called by next_prediction() if not yet done. Example : Returns : =cut sub _parse_predictions { my ($self) = @_; my %method = ( 'Glimmer' => '_parse_prokaryotic', 'GlimmerM' => '_parse_eukaryotic', 'GlimmerHMM' => '_parse_eukaryotic', '_DEFAULT_' => '_parse_eukaryotic', ); my $format = $self->_format(); if (!$format) { while (my $line = $self->_readline()) { if ( $line =~ /^Glimmer\S*\s+\(Version\s*\S+\)/ ) { $format = 'GlimmerM'; $self->_pushback($line); last; } elsif ( $line =~ /^Glimmer\S*$/ ) { $format = 'GlimmerHMM'; $self->_pushback($line); last; } elsif ($line =~ /^Putative Genes:$/) { $format = 'Glimmer'; $self->_pushback($line); last; } elsif ($line =~ /^>(\S+)/) { $format = 'Glimmer'; $self->_pushback($line); last; } } } my $method = (exists($method{$format})) ? $method{$format} : $method{'_DEFAULT_'}; return $self->$method(); } =head2 _parse_eukaryotic Title : _parse_eukaryotic() Usage : $obj->_parse_eukaryotic() Function: Parses the prediction section. Automatically called by next_prediction() if not yet done. Example : Returns : =cut sub _parse_eukaryotic { my ($self) = @_; my ($gene,$seqname,$seqlen,$source,$lastgenenum); while(defined($_ = $self->_readline())) { if( /^(Glimmer\S*)\s+\(Version\s*(\S+)\)/ ) { $source = "$1_$2"; next; } elsif( /^(GlimmerHMM\S*)$/ ) { # GlimmerHMM has no version $source = $1; next; } elsif(/^Sequence name:\s+(.+)$/ ) { $seqname = $1; next; } elsif( /^Sequence length:\s+(\S+)/ ) { $seqlen = $1; next; } elsif( m/^(Predicted genes)|(Gene)|\s+\#/ || /^\s+$/ ) { next; } elsif( # GlimmerM/HMM gene-exon prediction line /^\s+(\d+)\s+ # gene num (\d+)\s+ # exon num ([\+\-])\s+ # strand (\S+)\s+ # exon type (\d+)\s+(\d+) # exon start, end \s+(\d+) # exon length /ox ) { my ($genenum,$exonnum,$strand,$type,$start,$end,$len) = ( $1,$2,$3,$4,$5,$6,$7); if( ! $lastgenenum || $lastgenenum != $genenum) { $self->_add_prediction($gene) if ( $gene ); $gene = Bio::Tools::Prediction::Gene->new ( '-seq_id' => $seqname, '-primary_tag' => "gene", '-source_tag' => $source, '-tag' => { 'Group' => "GenePrediction$genenum"}, ); } my $exon = Bio::Tools::Prediction::Exon->new ('-seq_id' => $seqname, '-start' => $start, '-end' => $end, '-strand' => $strand eq '-' ? '-1' : '1', '-source_tag' => $source, '-primary_tag'=> 'exon', '-tag' => { 'Group' => "GenePrediction$genenum"}, ); $gene->add_exon($exon,lc($type)); $lastgenenum = $genenum; } } $self->_add_prediction($gene) if( $gene ); $self->_predictions_parsed(1); } =head2 _parse_prokaryotic Title : _parse_prokaryotic() Usage : $obj->_parse_prokaryotic() Function: Parses the prediction section. Automatically called by next_prediction() if not yet done. Example : Returns : =cut sub _parse_prokaryotic { my ($self) = @_; # default value, possibly overriden later my $source = 'Glimmer'; # Store the sequence length(s) here, either from the # seqlength arg to the constructor, or from the # Glimmer 3.X detail file my %seqlength = ( ); # Glimmer 2.X does not provide a sequence identifer # in the prediction report (will default to unknown # if not specified in the seqname arg to the # constructor # # Glimmer 2.X does not report the length of the # input sequence, either (will default to undef # if not specified in the seqlength arg to the # constructor my $seqname = $self->_seqname(); my $seqlength = $self->_seqlength(); if (defined($seqlength)) { $seqlength{$seqname} = $seqlength } # Parse the detail file, if we have one (Glimmer 3.X) my $detail_file = $self->_detail_file(); if (defined($detail_file)) { my $io = Bio::Root::IO->new(-file => $detail_file); my $seqname; while (defined($_ = $io->_readline())) { if ($_ =~ /^>(\S+)/) { $seqname = $1; next; } if (defined($seqname) && ($_ =~ /^Sequence length = (\d+)$/)) { $seqlength{$seqname} = $1; next; } } } my $location_factory = Bio::Factory::FTLocationFactory->new(); while(defined($_ = $self->_readline())) { # Glimmer 3.X does provide a sequence identifier - # beware whitespace at the end (comes through from # the fasta file) if ($_ =~ /^Putative Genes:$/) { $source = 'Glimmer_2.X'; next; } # Glimmer 3.X sequence identifier elsif ($_ =~ /^>(\S+)/) { $seqname = $1; $seqlength = $seqlength{$seqname}; $source = 'Glimmer_3.X'; next; } elsif ( # Glimmer 2.X prediction (/^\s+(\d+)\s+ # gene num (\d+)\s+(\d+)\s+ # start, end \[([\+\-])(\d{1})\s+ # strand, frame /ox ) || # Glimmer 3.X prediction (/^[^\d]+(\d+)\s+ # orf (numeric portion) (\d+)\s+(\d+)\s+ # start, end ([\+\-])(\d{1})\s+ # strand, frame ([\d\.]+) # score /ox)) { my ($genenum,$start,$end,$strand,$frame,$score) = ( $1,$2,$3,$4,$5,$6 ); my $circular_prediction = 0; # Check for a circular prediction before we # start fiddling with the coordinates if ($strand eq '+') { if ($start > $end) { $circular_prediction = 1; } } else { if ($start < $end) { $circular_prediction = 1; } } if ($circular_prediction) { unless (defined($seqlength)) { $self->throw("need to know the sequence length to handle wraparound genes"); } } # Glimmer 2.X predictions do not include # the stop codon - this might extend the # prediction off either end of the sequence. # This works fine even on circular/wraparound # predictions. if ($source eq 'Glimmer_2.X') { if ($strand eq '+') { $end += 3; } else { $end -= 3; } } # We might have extended a Glimmer 2.X prediction # beyond the boundaries of the input sequence. # Also, Glimmer 3.X (with -X) will output predictions # with coordinates less than 1 or greater than the # length of the sequence. my ($fst, $fend); foreach my $coord ($start, $end) { if ($coord < 1) { $coord = '<1'; $fst++; } elsif (defined($seqlength) && ($coord > $seqlength)) { $coord = ">$seqlength"; $fend++; } } my $location_string; if ($circular_prediction) { if ($strand eq '+') { $location_string = "join($start..$seqlength,1..$end)"; } else { $location_string = "join($start..1,$seqlength..$end)"; } } else { # start must always be less than end for gene locations if ($strand eq '-' && !$fst && !$fend && $start > $end) { ($start, $end) = ($end, $start); } $location_string = "$start..$end"; } my $location_object = $location_factory->from_string($location_string); # convert glimmer's frame range from 1-3 to SeqFeature's 0-2. $frame--; my $gene = Bio::SeqFeature::Generic->new ( '-seq_id' => $seqname, '-location' => $location_object, '-strand' => $strand eq '-' ? '-1' : '1', '-frame' => $frame, '-source_tag' => $source, '-display_name' => "orf$genenum", '-primary_tag'=> 'gene', '-tag' => { 'Group' => "GenePrediction_$genenum"}, '-score' => $score || undef ); $self->_add_prediction($gene) } } $self->_predictions_parsed(1); } =head2 _prediction Title : _prediction() Usage : $gene = $obj->_prediction() Function: internal Example : Returns : =cut sub _prediction { my ($self) = @_; return unless(exists($self->{'_preds'}) && @{$self->{'_preds'}}); return shift(@{$self->{'_preds'}}); } =head2 _add_prediction Title : _add_prediction() Usage : $obj->_add_prediction($gene) Function: internal Example : Returns : =cut sub _add_prediction { my ($self, $gene) = @_; if(! exists($self->{'_preds'})) { $self->{'_preds'} = []; } push(@{$self->{'_preds'}}, $gene); } =head2 _predictions_parsed Title : _predictions_parsed Usage : $obj->_predictions_parsed Function: internal Example : Returns : TRUE or FALSE =cut sub _predictions_parsed { my ($self, $val) = @_; $self->{'_preds_parsed'} = $val if $val; if(! exists($self->{'_preds_parsed'})) { $self->{'_preds_parsed'} = 0; } return $self->{'_preds_parsed'}; } =head2 _seqname Title : _seqname Usage : $obj->_seqname($seqname) Function: internal (for Glimmer 2.X) Example : Returns : String =cut sub _seqname { my ($self, $val) = @_; $self->{'_seqname'} = $val if $val; if(! exists($self->{'_seqname'})) { $self->{'_seqname'} = 'unknown'; } return $self->{'_seqname'}; } =head2 _seqlength Title : _seqlength Usage : $obj->_seqlength($seqlength) Function: internal (for Glimmer 2.X) Example : Returns : String =cut sub _seqlength { my ($self, $val) = @_; $self->{'_seqlength'} = $val if $val; return $self->{'_seqlength'}; } =head2 _format Title : _format Usage : $obj->_format($format) Function: internal Example : Returns : String =cut sub _format { my ($self, $val) = @_; $self->{'_format'} = $val if $val; return $self->{'_format'}; } =head2 _detail_file Title : _detail_file Usage : $obj->_detail_file($filename) Function: internal (for Glimmer 3.X) Example : Returns : String =cut sub _detail_file { my ($self, $val) = @_; $self->{'_detail_file'} = $val if $val; return $self->{'_detail_file'}; } 1;