# $Id: GenericRichSeqHandler.pm 16123 2009-09-17 12:57:27Z cjfields $ # # BioPerl module for Bio::SeqIO::Handler::GenericRichSeqHandler # # Please direct questions and support issues to # # Cared for by Chris Fields # # Copyright Chris Fields # # You may distribute this module under the same terms as perl itself # POD documentation - main docs before the code =head1 NAME Bio::SeqIO::Handler::GenericRichSeqHandler - Bio::HandlerI-based data handler for GenBank/EMBL/UniProt (and other) sequence data =head1 SYNOPSIS # MyHandler is a GenericRichSeqHandler object. # inside a parser (driver) constructor.... $self->seq_handler($handler || MyHandler->new(-format => 'genbank')); # in next_seq() in driver... $hobj = $self->seqhandler(); # roll data up into hashref chunks, pass off into Handler for processing... $hobj->data_handler($data); # or retrieve Handler methods and pass data directly to Handler methods... my $hmeth = $hobj->handler_methods; if ($hmeth->{ $data->{NAME} }) { my $mth = $hmeth->{ $data->{NAME} }; $hobj->$mth($data); } =head1 DESCRIPTION This is an experimental implementation of a sequence-based HandlerBaseI parser and may change over time. It is possible (nay, likely) that the way handler methods are set up will change over development to allow more flexibility. Release pumpkins, please do not add this to a release until the API has settled. It is also likely that write_seq() will not work properly for some data. Standard Developer caveats: Do not use for production purposes. Not responsible for destroying (your data|computer|world). Do not stare directly at GenericRichSeqHandler. If GenericRichSeqHandler glows, back slowly away and call for help. Consider yourself warned! This class acts as a demonstration on how to handle similar data chunks derived from Bio::SeqIO::gbdriver, Bio::SeqIO::embldriver, and Bio::SeqIO::swissdriver using similar (or the same) handler methods. The modules currently pass all previous tests in t/genbank.t, t/embl.t, and t/swiss.t yet all use the same handler methods (the collected tests for handlers can be found in t/Handler.t). Some tweaking of the methods themselves is probably in order over the long run to ensure that data is consistently handled for each parser. Round-trip tests are probably in order here... Though a Bio::Seq::SeqBuilder is employed for building sequence objects no bypassing of data based on builder slots has been implemented (yet); this is planned in the near future. As a reminder: this is the current Annotation data chunk (via Data::Dumper): $VAR1 = { 'NAME' => 'REFERENCE', 'DATA' => '1 (bases 1 to 10001)' 'AUTHORS' => 'International Human Genome Sequencing Consortium.' 'TITLE' => 'The DNA sequence of Homo sapiens' 'JOURNAL' => 'Unpublished (2003)' }; ... This is the current SeqFeature data chunk (again via Data::Dumper): $VAR1 = { 'mol_type' => 'genomic DNA', 'LOCATION' => '<1..>10001', 'NAME' => 'FEATURES', 'FEATURE_KEY' => 'source', 'note' => 'Accession AL451081 sequenced by The Sanger Centre', 'db_xref' => 'taxon:9606', 'clone' => 'RP11-302I18', 'organism' => 'Homo sapiens' }; =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 AUTHOR - Chris Fields Email cjfields 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::SeqIO::Handler::GenericRichSeqHandler; use strict; use warnings; use Bio::SeqIO::FTHelper; use Bio::Annotation::Collection; use Bio::Annotation::DBLink; use Bio::Annotation::Comment; use Bio::Annotation::Reference; use Bio::Annotation::Collection; use Bio::Annotation::SimpleValue; use Bio::Annotation::TagTree; use Bio::SeqFeature::Generic; use Bio::Species; use Bio::Taxon; use Bio::DB::Taxonomy; use Bio::Factory::FTLocationFactory; use Data::Dumper; use base qw(Bio::Root::Root Bio::HandlerBaseI); my %HANDLERS = ( 'genbank' => { 'LOCUS' => \&_genbank_locus, 'DEFINITION' => \&_generic_description, 'ACCESSION' => \&_generic_accession, 'VERSION' => \&_generic_version, 'KEYWORDS' => \&_generic_keywords, 'DBSOURCE' => \&_genbank_dbsource, 'SOURCE' => \&_generic_species, 'REFERENCE' => \&_generic_reference, 'COMMENT' => \&_generic_comment, 'FEATURES' => \&_generic_seqfeatures, 'BASE' => \&noop, # this is generated from scratch 'ORIGIN' => \&_generic_seq, # handles anything else (WGS, WGS_SCAFLD, CONTIG, PROJECT) '_DEFAULT_' => \&_generic_simplevalue, }, 'embl' => { 'ID' => \&_embl_id, 'DT' => \&_embl_date, 'DR' => \&_generic_dbsource, 'SV' => \&_generic_version, 'RN' => \&_generic_reference, 'KW' => \&_generic_keywords, 'DE' => \&_generic_description, 'AC' => \&_generic_accession, #'AH' => \&noop, # TPA data not dealt with yet... #'AS' => \&noop, 'SQ' => \&_generic_seq, 'OS' => \&_generic_species, 'CC' => \&_generic_comment, 'FT' => \&_generic_seqfeatures, # handles anything else (WGS, TPA, ANN...) '_DEFAULT_' => \&_generic_simplevalue, }, 'swiss' => { 'ID' => \&_swiss_id, 'DT' => \&_swiss_date, 'GN' => \&_swiss_genename, 'DR' => \&_generic_dbsource, 'RN' => \&_generic_reference, 'KW' => \&_generic_keywords, 'DE' => \&_generic_description, 'AC' => \&_generic_accession, 'SQ' => \&_generic_seq, 'OS' => \&_generic_species, 'CC' => \&_generic_comment, 'FT' => \&_generic_seqfeatures, # handles anything else, though I don't know what... '_DEFAULT_' => \&_generic_simplevalue, }, ); # can we do this generically? Seems like a lot of trouble... my %DBSOURCE = map {$_ => 1} qw( EchoBASE IntAct SWISS-2DPAGE ECO2DBASE ECOGENE TIGRFAMs TIGR GO InterPro Pfam PROSITE SGD GermOnline HSSP PhosSite Ensembl RGD AGD ArrayExpress KEGG H-InvDB HGNC LinkHub PANTHER PRINTS SMART SMR MGI MIM RZPD-ProtExp ProDom MEROPS TRANSFAC Reactome UniGene GlycoSuiteDB PIRSF HSC-2DPAGE PHCI-2DPAGE PMMA-2DPAGE Siena-2DPAGE Rat-heart-2DPAGE Aarhus/Ghent-2DPAGE Biocyc MetaCyc Biocyc:Metacyc GenomeReviews FlyBase TMHOBP COMPLUYEAST-2DPAGE OGP DictyBase HAMAP PhotoList Gramene WormBase WormPep Genew ZFIN PeroxiBase MaizeDB TAIR DrugBank REBASE HPA swissprot GenBank GenPept REFSEQ embl PDB UniProtKB); my %NOPROCESS = map {$_ => 1} qw(DBSOURCE ORGANISM FEATURES); our %VALID_ALPHABET = ( 'bp' => 'dna', 'aa' => 'protein', 'rc' => '' # rc = release candidate; file has no sequences ); =head2 new Title : new Usage : Function: Returns : Args : -format Sequence format to be mapped for handler methods -builder Bio::Seq::SeqBuilder object (normally defined in SequenceStreamI object implementation constructor) Throws : On undefined '-format' sequence format parameter Note : Still under heavy development =cut sub new { my ($class, @args) = @_; my $self = $class->SUPER::new(@args); $self = {@args}; bless $self,$class; my ($format, $builder) = $self->_rearrange([qw(FORMAT BUILDER)], @args); $self->throw("Must define sequence record format") if !$format; $self->format($format); $self->handler_methods(); $builder && $self->seqbuilder($builder); $self->location_factory(); return $self; } =head1 L implementing methods =head2 handler_methods Title : handler_methods Usage : $handler->handler_methods('GenBank') %handlers = $handler->handler_methods(); Function: Retrieve the handler methods used for the current format() in the handler. This assumes the handler methods are already described in the HandlerI-implementing class. Returns : a hash reference with the data type handled and the code ref associated with it. Args : [optional] String representing the sequence format. If set here this will also set sequence_format() Throws : On unimplemented sequence format in %HANDLERS =cut sub handler_methods { my $self = shift; if (!($self->{'handlers'})) { $self->throw("No handlers defined for seqformat ",$self->format) unless exists $HANDLERS{$self->format}; $self->{'handlers'} = $HANDLERS{$self->format}; } return ($self->{'handlers'}); } =head2 data_handler Title : data_handler Usage : $handler->data_handler($data) Function: Centralized method which accepts all data chunks, then distributes to the appropriate methods for processing based on the chunk name from within the HandlerBaseI object. One can also use Returns : None Args : an hash ref containing a data chunk. =cut sub data_handler { my ($self, $data) = @_; my $nm = $data->{NAME} || $self->throw("No name tag defined!"); # this should handle data on the fly w/o caching; any caching should be # done in the driver! my $method = (exists $self->{'handlers'}->{$nm}) ? ($self->{'handlers'}->{$nm}) : (exists $self->{'handlers'}->{'_DEFAULT_'}) ? ($self->{'handlers'}->{'_DEFAULT_'}) : undef; if (!$method) { $self->debug("No handler defined for $nm\n"); return; }; $self->$method($data); } =head2 reset_parameters Title : reset_parameters Usage : $handler->reset_parameters() Function: Resets the internal cache of data (normally object parameters for a builder or factory) Returns : None Args : None =cut sub reset_parameters { my $self = shift; $self->{'_params'} = undef; } =head2 format Title : format Usage : $handler->format('GenBank') Function: Get/Set the format for the report/record being parsed. This can be used to set handlers in classes which are capable of processing similar data chunks from multiple driver modules. Returns : String with the sequence format Args : [optional] String with the sequence format Note : The format may be used to set the handlers (as in the current GenericRichSeqHandler implementation) =cut sub format { my $self = shift; return $self->{'_seqformat'} = lc shift if @_; return $self->{'_seqformat'}; } =head2 get_params Title : get_params Usage : $handler->get_params('-species') Function: Convenience method used to retrieve the specified parameters from the internal parameter cache Returns : Hash ref containing parameters requested and data as key-value pairs. Note that some parameter values may be objects, arrays, etc. Args : List (array) representing the parameters requested =cut sub get_params { my ($self, @ids) = @_; my %data; for my $id (@ids) { if (!index($id, '-')==0) { $id = '-'.$id ; } $data{$id} = $self->{'_params'}->{$id} if (exists $self->{'_params'}->{$id}); } return \%data; } =head2 set_params Title : set_params Usage : $handler->set_param({'-species') Function: Convenience method used to set specific parameters Returns : None Args : Hash ref containing the data to be passed as key-value pairs =cut sub set_params { shift->throw('Not implemented yet!'); } =head1 Methods unique to this implementation =head2 seqbuilder Title : seqbuilder Usage : Function: Returns : Args : Throws : Note : =cut sub seqbuilder { my $self = shift; return $self->{'_seqbuilder'} = shift if @_; return $self->{'_seqbuilder'}; } =head2 build_sequence Title : build_sequence Usage : Function: Returns : Args : Throws : Note : =cut sub build_sequence { my $self = shift; my $builder = $self->seqbuilder(); my $seq; if (defined($self->{'_params'})) { $builder->add_slot_value(%{ $self->{'_params'} }); $seq = $builder->make_object(); $self->reset_parameters; } return $seq if $seq; return 0; } =head2 location_factory Title : location_factory Usage : Function: Returns : Args : Throws : Note : =cut sub location_factory { my ($self, $factory) = @_; if ($factory) { $self->throw("Must have a Bio::Factory::LocationFactoryI when ". "explicitly setting factory()") unless (ref($factory) && $factory->isa('Bio::Factory::LocationFactoryI')); $self->{'_locfactory'} = $factory; } elsif (!defined($self->{'_locfactory'})) { $self->{'_locfactory'} = Bio::Factory::FTLocationFactory->new() } return $self->{'_locfactory'}; } =head2 annotation_collection Title : annotation_collection Usage : Function: Returns : Args : Throws : Note : =cut sub annotation_collection { my ($self, $coll) = @_; if ($coll) { $self->throw("Must have Bio::AnnotationCollectionI ". "when explicitly setting collection()") unless (ref($coll) && $coll->isa('Bio::AnnotationCollectionI')); $self->{'_params'}->{'-annotation'} = $coll; } elsif (!exists($self->{'_params'}->{'-annotation'})) { $self->{'_params'}->{'-annotation'} = Bio::Annotation::Collection->new() } return $self->{'_params'}->{'-annotation'}; } ####################### SEQUENCE HANDLERS ####################### # any sequence data sub _generic_seq { my ($self, $data) = @_; $self->{'_params'}->{'-seq'} = $data->{DATA}; } ####################### RAW DATA HANDLERS ####################### # GenBank LOCUS line sub _genbank_locus { my ($self, $data) = @_; my (@tokens) = split m{\s+}, $data->{DATA}; my $display_id = shift @tokens; $self->{'_params'}->{'-display_id'} = $display_id; my $seqlength = shift @tokens; if (exists $VALID_ALPHABET{$seqlength}) { # moved one token too far. No locus name? $self->warn("Bad LOCUS name? Changing [".$self->{'_params'}->{'-display_id'}. "] to 'unknown' and length to ".$self->{'_params'}->{'-display_id'}); $self->{'_params'}->{'-length'} = $self->{'_params'}->{'-display_id'}; $self->{'_params'}->{'-display_id'} = 'unknown'; # add token back... unshift @tokens, $seqlength; } else { $self->{'_params'}->{'-length'} = $seqlength; } my $alphabet = lc(shift @tokens); $self->{'_params'}->{'-alphabet'} = (exists $VALID_ALPHABET{$alphabet}) ? $VALID_ALPHABET{$alphabet} : $self->warn("Unknown alphabet: $alphabet"); if (($self->{'_params'}->{'-alphabet'} eq 'dna') || (@tokens > 2)) { $self->{'_params'}->{'-molecule'} = shift(@tokens); my $circ = shift(@tokens); if ($circ eq 'circular') { $self->{'_params'}->{'-is_circular'} = 1; $self->{'_params'}->{'-division'} = shift(@tokens); } else { # 'linear' or 'circular' may actually be omitted altogether $self->{'_params'}->{'-division'} = (CORE::length($circ) == 3 ) ? $circ : shift(@tokens); } } else { $self->{'_params'}->{'-molecule'} = 'PRT' if($self->{'_params'}->{'-alphabet'} eq 'aa'); $self->{'_params'}->{'-division'} = shift(@tokens); } my $date = join(' ', @tokens); # maybe use Date::Time for dates? if($date && $date =~ s{\s*((\d{1,2})-(\w{3})-(\d{2,4})).*}{$1}) { if( length($date) < 11 ) { # improperly formatted date # But we'll be nice and fix it for them my ($d,$m,$y) = ($2,$3,$4); if( length($d) == 1 ) { $d = "0$d"; } # guess the century here if( length($y) == 2 ) { if( $y > 60 ) { # arbitrarily guess that '60' means 1960 $y = "19$y"; } else { $y = "20$y"; } $self->warn("Date was malformed, guessing the century for $date to be $y\n"); } $self->{'_params'}->{'-dates'} = [join('-',$d,$m,$y)]; } else { $self->{'_params'}->{'-dates'} = [$date]; } } } # EMBL ID line sub _embl_id { my ($self, $data) = @_; my $alphabet; my ($name, $sv, $topology, $mol, $div); my $line = $data->{DATA}; #$self->debug("$line\n"); my ($idtype) = $line =~ tr/;/;/; if ( $idtype == 6) { # New style headers contain exactly six semicolons. # New style header (EMBL Release >= 87, after June 2006) my $topology; my $sv; # ID DQ299383; SV 1; linear; mRNA; STD; MAM; 431 BP. # This regexp comes from the new2old.pl conversion script, from EBI if ($line =~ m/^(\w+);\s+SV (\d+); (\w+); ([^;]+); (\w{3}); (\w{3}); (\d+) \w{2}\./) { ($name, $sv, $topology, $mol, $div) = ($1, $2, $3, $4, $6); } else { $self->throw("Unrecognized EMBL ID line:[$line]"); } if (defined($sv)) { $self->{'_params'}->{'-seq_version'} = $sv; $self->{'_params'}->{'-version'} = $sv; } if ($topology eq "circular") { $self->{'_params'}->{'-is_circular'} = 1; } if (defined $mol ) { if ($mol =~ /DNA/) { $alphabet='dna'; } elsif ($mol =~ /RNA/) { $alphabet='rna'; } elsif ($mol =~ /AA/) { $alphabet='protein'; } } } elsif ($idtype) { # has internal ';' # Old style header (EMBL Release < 87, before June 2006) if ($line =~ m{^(\S+)[^;]*;\s+(\S+)[^;]*;\s+(\S+)[^;]*;}) { ($name, $mol, $div) = ($1, $2, $3); #$self->debug("[$name][$mol][$div]"); } if($mol) { if ( $mol =~ m{circular} ) { $self->{'_params'}->{'-is_circular'} = 1; $mol =~ s{circular }{}; } if (defined $mol ) { if ($mol =~ /DNA/) { $alphabet='dna'; } elsif ($mol =~ /RNA/) { $alphabet='rna'; } elsif ($mol =~ /AA/) { $alphabet='protein'; } } } } else { $name = $data->{DATA}; } unless( defined $name && length($name) ) { $name = "unknown_id"; } $self->{'_params'}->{'-display_id'} = $name; $self->{'_params'}->{'-alphabet'} = $alphabet; $self->{'_params'}->{'-division'} = $div if $div; $self->{'_params'}->{'-molecule'} = $mol if $mol; } # UniProt/SwissProt ID line sub _swiss_id { my ($self, $data) = @_; my ($name, $seq_div); if($data->{DATA} =~ m{^ (\S+) \s+ # $1 entryname ([^\s;]+); \s+ # $2 DataClass (?:PRT;)? \s+ # Molecule Type (optional) [0-9]+[ ]AA \. # Sequencelength (capture?) $ }ox ) { ($name, $seq_div) = ($1, $2); $self->{'_params'}->{'-namespace'} = ($seq_div eq 'Reviewed' || $seq_div eq 'STANDARD') ? 'Swiss-Prot' : ($seq_div eq 'Unreviewed' || $seq_div eq 'PRELIMINARY') ? 'TrEMBL' : $seq_div; # we shouldn't be setting the division, but for now... my ($junk, $division) = split q(_), $name; $self->{'_params'}->{'-division'} = $division; $self->{'_params'}->{'-alphabet'} = 'protein'; # this is important to have the id for display in e.g. FTHelper, otherwise # you won't know which entry caused an error $self->{'_params'}->{'-display_id'} = $name; } else { $self->throw("Unrecognized UniProt/SwissProt ID line:[".$data->{DATA}."]"); } } # UniProt/SwissProt GN line sub _swiss_genename { my ($self, $data) = @_; #$self->debug(Dumper($data)); my $genename = $data->{DATA}; my $gn; if ($genename) { my @stags; if ($genename =~ /\w=\w/) { # new format (e.g., Name=RCHY1; Synonyms=ZNF363, CHIMP) for my $n (split(m{\s+and\s+},$genename)) { my @genenames; for my $section (split(m{\s*;\s*},$n)) { my ($tag, $rest) = split("=",$section); $rest ||= ''; for my $val (split(m{\s*,\s*},$rest)) { push @genenames, [$tag => $val]; } } push @stags, ['gene_name' => \@genenames]; } } else { # old format for my $section (split(/ AND /, $genename)) { my @genenames; $section =~ s/[\(\)\.]//g; my @names = split(m{\s+OR\s+}, $section); push @genenames, ['Name' => shift @names]; push @genenames, map {['Synonyms' => $_]} @names; push @stags, ['gene_name' => \@genenames] } } #use Data::Dumper; print Dumper $gn, $genename;# exit; my $gn = Bio::Annotation::TagTree->new(-tagname => 'gene_name', -value => ['gene_names' => \@stags]); $self->annotation_collection->add_Annotation('gene_name', $gn); } } # GenBank VERSION line # old EMBL SV line (now obsolete) # UniProt/SwissProt? sub _generic_version { my ($self, $data) = @_; my ($acc,$gi) = split(' ',$data->{DATA}); if($acc =~ m{^\w+\.(\d+)}xmso) { $self->{'_params'}->{'-version'} = $1; $self->{'_params'}->{'-seq_version'} = $1; } if($gi && (index($gi,"GI:") == 0)) { $self->{'_params'}->{'-primary_id'} = substr($gi,3); } } # EMBL DT lines sub _embl_date { my ($self, $data) = @_; while ($data->{DATA} =~ m{(\S+)\s\((.*?)\)}g) { my ($date, $version) = ($1, $2); $date =~ tr{,}{}d; # remove comma if new version if ($version =~ m{\(Rel\.\s(\d+),\sCreated\)}xmso ) { my $release = Bio::Annotation::SimpleValue->new( -tagname => 'creation_release', -value => $1 ); $self->annotation_collection->add_Annotation($release); } elsif ($version =~ m{\(Rel\.\s(\d+),\sLast\supdated,\sVersion\s(\d+)\)}xmso ) { my $release = Bio::Annotation::SimpleValue->new( -tagname => 'update_release', -value => $1 ); $self->annotation_collection->add_Annotation($release); my $update = Bio::Annotation::SimpleValue->new( -tagname => 'update_version', -value => $2 ); $self->annotation_collection->add_Annotation($update); } push @{ $self->{'_params'}->{'-dates'} }, $date; } } # UniProt/SwissProt DT lines sub _swiss_date { my ($self, $data) = @_; # swissprot my @dls = split m{\n}, $data->{DATA}; for my $dl (@dls) { my ($date, $version) = split(' ', $dl, 2); $date =~ tr{,}{}d; # remove comma if new version if ($version =~ m{\(Rel\. (\d+), Last sequence update\)} || # old $version =~ m{sequence version (\d+)\.}) { #new my $update = Bio::Annotation::SimpleValue->new( -tagname => 'seq_update', -value => $1 ); $self->annotation_collection->add_Annotation($update); } elsif ($version =~ m{\(Rel\. (\d+), Last annotation update\)} || #old $version =~ m{entry version (\d+)\.}) { #new $self->{'_params'}->{'-version'} = $1; $self->{'_params'}->{'-seq_version'} = $1; } push @{ $self->{'_params'}->{'-dates'} }, $date; } } # GenBank KEYWORDS line # EMBL KW line # UniProt/SwissProt KW line sub _generic_keywords { my ($self, $data) = @_; $data->{DATA} =~ s{\.$}{}; my @kw = split m{\s*\;\s*}xo ,$data->{DATA}; $self->{'_params'}->{'-keywords'} = \@kw; } # GenBank DEFINITION line # EMBL DE line # UniProt/SwissProt DE line sub _generic_description { my ($self, $data) = @_; $self->{'_params'}->{'-desc'} = $data->{DATA}; } # GenBank ACCESSION line # EMBL AC line # UniProt/SwissProt AC line sub _generic_accession { my ($self, $data) = @_; my @accs = split m{[\s;]+}, $data->{DATA}; $self->{'_params'}->{'-accession_number'} = shift @accs; $self->{'_params'}->{'-secondary_accessions'} = \@accs if @accs; } ####################### SPECIES HANDLERS ####################### # uses Bio::Species # GenBank SOURCE, ORGANISM lines # EMBL O* lines # UniProt/SwissProt O* lines sub _generic_species { my ($self, $data) = @_; my $seqformat = $self->format; # if data is coming in from GenBank parser... if ($seqformat eq 'genbank' && $data->{ORGANISM} =~ m{(.+?)\s(\S+;[^\n\.]+)}ox) { ($data->{ORGANISM}, $data->{CLASSIFICATION}) = ($1, $2); } # SwissProt stuff... # hybrid names in swissprot files are no longer valid per intergration into # UniProt. Files containing these have been split into separate entries, so # it is probably a good idea to update if one has these lingering around... my $taxid; if ($seqformat eq 'swiss') { if ($data->{DATA} =~ m{^([^,]+)}ox) { $data->{DATA} = $1; } if ($data->{CROSSREF} && $data->{CROSSREF} =~ m{NCBI_TaxID=(\d+)}) { $taxid = $1; } } my ($sl, $class, $sci_name) = ($data->{DATA}, $data->{CLASSIFICATION}, $data->{ORGANISM} || ''); my ($organelle,$abbr_name, $common); my @class = reverse split m{\s*;\s*}, $class; # have to treat swiss different from everything else... if ($sl =~ m{^(mitochondrion|chloroplast|plastid)? # GenBank format \s*(.*?) \s*(?: \( (.*?) \) )?\.?$ }xmso ){ ($organelle, $abbr_name, $common) = ($1, $2, $3); # optional } else { $abbr_name = $sl; # nothing caught; this is a backup! } # there is no 'abbreviated name' for EMBL $sci_name = $abbr_name if $seqformat ne 'genbank'; $organelle ||= ''; $common ||= ''; $sci_name || return; unshift @class, $sci_name; # no genus/species parsing here; moving to Bio::Taxon-based taxonomy my $make = Bio::Species->new(); $make->scientific_name($sci_name); $make->classification(@class) if @class > 0; $common && $make->common_name( $common ); $abbr_name && $make->name('abbreviated', $abbr_name); $organelle && $make->organelle($organelle); $taxid && $make->ncbi_taxid($taxid); $self->{'_params'}->{'-species'} = $make; } ####################### ANNOTATION HANDLERS ####################### # GenBank DBSOURCE line sub _genbank_dbsource { my ($self, $data) = @_; my $dbsource = $data->{DATA}; my $annotation = $self->annotation_collection; # deal with swissprot dbsources # we could possibly parcel these out to subhandlers... if( $dbsource =~ s/(UniProt(?:KB)|swissprot):\s+locus\s+(\S+)\,.+\n// ) { $annotation->add_Annotation ('dblink', Bio::Annotation::DBLink->new (-primary_id => $2, -database => $1, -tagname => 'dblink')); if( $dbsource =~ s/\s*created:\s+([^\.]+)\.\n// ) { $annotation->add_Annotation ('swissprot_dates', Bio::Annotation::SimpleValue->new (-tagname => 'date_created', -value => $1)); } while( $dbsource =~ s/\s*(sequence|annotation)\s+updated:\s+([^\.]+)\.\n//g ) { $annotation->add_Annotation ('swissprot_dates', Bio::Annotation::SimpleValue->new (-tagname => 'date_updated', -value => $1)); } $dbsource =~ s/\n/ /g; if( $dbsource =~ s/\s*xrefs:\s+((?:\S+,\s+)+\S+)\s+xrefs/xrefs/ ) { # will use $i to determine even or odd # for swissprot the accessions are paired my $i = 0; for my $dbsrc ( split(/,\s+/,$1) ) { if( $dbsrc =~ /(\S+)\.(\d+)/ || $dbsrc =~ /(\S+)/ ) { my ($id,$version) = ($1,$2); $version ='' unless defined $version; my $db; if( $id =~ /^\d\S{3}/) { $db = 'PDB'; } else { $db = ($i++ % 2 ) ? 'GenPept' : 'GenBank'; } $annotation->add_Annotation ('dblink', Bio::Annotation::DBLink->new (-primary_id => $id, -version => $version, -database => $db, -tagname => 'dblink')); } } } elsif( $dbsource =~ s/\s*xrefs:\s+(.+)\s+xrefs/xrefs/i ) { # download screwed up and ncbi didn't put acc in for gi numbers my $i = 0; for my $id ( split(/\,\s+/,$1) ) { my ($acc,$db); if( $id =~ /gi:\s+(\d+)/ ) { $acc= $1; $db = ($i++ % 2 ) ? 'GenPept' : 'GenBank'; } elsif( $id =~ /pdb\s+accession\s+(\S+)/ ) { $acc= $1; $db = 'PDB'; } else { $acc= $id; $db = ''; } $annotation->add_Annotation ('dblink', Bio::Annotation::DBLink->new (-primary_id => $acc, -database => $db, -tagname => 'dblink')); } } else { $self->warn("Cannot match $dbsource\n"); } if( $dbsource =~ s/xrefs\s+\(non\-sequence\s+databases\):\s+ ((?:\S+,\s+)+\S+)//x ) { for my $id ( split(/\,\s+/,$1) ) { my $db; # this is because GenBank dropped the spaces!!! # I'm sure we're not going to get this right ##if( $id =~ s/^://i ) { ## $db = $1; ##} $db = substr($id,0,index($id,':')); if (! exists $DBSOURCE{ $db }) { $db = ''; # do we want 'GenBank' here? } $id = substr($id,index($id,':')+1); $annotation->add_Annotation ('dblink',Bio::Annotation::DBLink->new (-primary_id => $id, -database => $db, -tagname => 'dblink')); } } } else { if( $dbsource =~ /^(\S*?):?\s*accession\s+(\S+)\.(\d+)/ ) { my ($db,$id,$version) = ($1,$2,$3); $annotation->add_Annotation ('dblink', Bio::Annotation::DBLink->new (-primary_id => $id, -version => $version, -database => $db || 'GenBank', -tagname => 'dblink')); } elsif ( $dbsource =~ /(\S+)\.(\d+)/ ) { my ($id,$version) = ($1,$2); $annotation->add_Annotation ('dblink', Bio::Annotation::DBLink->new (-primary_id => $id, -version => $version, -database => 'GenBank', -tagname => 'dblink')); } else { $self->warn("Unrecognized DBSOURCE data: $dbsource\n"); } } } # EMBL DR lines # UniProt/SwissProt DR lines sub _generic_dbsource { my ($self, $data) = @_; #$self->debug(Dumper($data)); while ($data->{DATA} =~ m{([^\n]+)}og) { my $dblink = $1; $dblink =~ s{\.$}{}; my $link; my @linkdata = split '; ',$dblink; if ( $dblink =~ m{([^\s;]+);\s*([^\s;]+);?\s*([^\s;]+)?}) { #if ( $dblink =~ m{([^\s;]+);\s*([^\s;]+);?\s*([^\s;]+)?}) { my ($databse, $prim_id, $sec_id) = ($1,$2,$3); $link = Bio::Annotation::DBLink->new(-database => $databse, -primary_id => $prim_id, -optional_id => $sec_id); } else { $self->warn("No match for $dblink"); } $self->annotation_collection->add_Annotation('dblink', $link); } } # GenBank REFERENCE and related lines # EMBL R* lines # UniProt/SwissProt R* lines sub _generic_reference { my ($self, $data) = @_; my $seqformat = $self->format; my ($start, $end); # get these in EMBL/Swiss if ($data->{CROSSREF}) { while ($data->{CROSSREF} =~ m{(pubmed|doi|medline)(?:=|;\s+)(\S+)}oig) { my ($db, $ref) = (uc $1, $2); $ref =~ s{[;.]+$}{}; $data->{$db} = $ref; } } # run some cleanup for swissprot if ($seqformat eq 'swiss') { for my $val (values %{ $data }) { $val =~ s{;$}{}; $val =~ s{(\w-)\s}{$1}; } } if ( $data->{POSITION} ) { if ($seqformat eq 'embl') { ($start, $end) = split '-', $data->{POSITION},2; } elsif ($data->{POSITION} =~ m{.+? OF (\d+)-(\d+).*}) { #swiss ($start, $end) = ($1, $2); } } if ($data->{DATA} =~ m{^\d+\s+\([a-z]+\s+(\d+)\s+to\s+(\d+)\)}xmso) { ($start, $end) = ($1, $2); } my $ref = Bio::Annotation::Reference->new( -comment => $data->{REMARK}, -location => $data->{JOURNAL}, -pubmed => $data->{PUBMED}, -consortium => $data->{CONSRTM}, -title => $data->{TITLE}, -authors => $data->{AUTHORS}, -medline => $data->{MEDLINE}, -doi => $data->{DOI}, -rp => $data->{POSITION}, # JIC... -start => $start, -end => $end, ); if ($data->{DATA} =~ m{^\d+\s+\((.*)\)}xmso) { $ref->gb_reference($1); } $self->annotation_collection->add_Annotation('reference', $ref); } # GenBank COMMENT lines # EMBL CC lines # UniProt/SwissProt CC lines sub _generic_comment { my ($self, $data) = @_; $self->annotation_collection->add_Annotation('comment', Bio::Annotation::Comment->new( -text => $data->{DATA} )); } ####################### SEQFEATURE HANDLER ####################### # GenBank Feature Table sub _generic_seqfeatures { my ($self, $data) = @_; return if $data->{FEATURE_KEY} eq 'FEATURES'; my $primary_tag = $data->{FEATURE_KEY}; # grab the NCBI taxon ID from the source SF if ($primary_tag eq 'source' && exists $data->{'db_xref'}) { if ( $self->{'_params'}->{'-species'} && $data->{'db_xref'} =~ m{taxon:(\d+)}xmso ) { $self->{'_params'}->{'-species'}->ncbi_taxid($1); } } my $source = $self->format; my $seqid = ${ $self->get_params('accession_number') }{'accession_number'}; my $loc; eval { $loc = $self->{'_locfactory'}->from_string($data->{'LOCATION'}); }; if(! $loc) { $self->warn("exception while parsing location line [" . $data->{'LOCATION'} . "] in reading $source, ignoring feature " . $data->{'primary_tag'}. " (seqid=" . $seqid . "): " . $@); return; } if($seqid && (! $loc->is_remote())) { $loc->seq_id($seqid); # propagates if it is a split location } my $sf = Bio::SeqFeature::Generic->direct_new(); $sf->location($loc); $sf->primary_tag($primary_tag); $sf->seq_id($seqid); $sf->source_tag($source); delete $data->{'FEATURE_KEY'}; delete $data->{'LOCATION'}; delete $data->{'NAME'}; delete $data->{'DATA'}; $sf->set_attributes(-tag => $data); push @{ $self->{'_params'}->{'-features'} }, $sf; } ####################### ODDS AND ENDS ####################### # Those things that don't fit anywhere else... sub _generic_simplevalue { my ($self, $data) = @_; $self->annotation_collection->add_Annotation( Bio::Annotation::SimpleValue->new(-tagname => lc($data->{NAME}), -value => $data->{DATA}) ); } sub noop {} sub _debug { my ($self, $data) = @_; $self->debug(Dumper($data)); } 1;