# # BioPerl module for Bio::Species # # Please direct questions and support issues to # # Cared for by James Gilbert # Reimplemented by Sendu Bala # Re-reimplemented by Chris Fields # # You may distribute this module under the same terms as perl itself # POD documentation - main docs before the code =head1 NAME Bio::Species - Generic species object. =head1 SYNOPSIS $species = Bio::Species->new(-classification => [@classification]); # Can also pass classification # array to new as below $species->classification(qw( sapiens Homo Hominidae Catarrhini Primates Eutheria Mammalia Vertebrata Chordata Metazoa Eukaryota )); $genus = $species->genus(); $bi = $species->binomial(); # $bi is now "Homo sapiens" # For storing common name $species->common_name("human"); # For storing subspecies $species->sub_species("accountant"); =head1 DESCRIPTION B Provides a very simple object for storing phylogenetic information. The classification is stored in an array, which is a list of nodes in a phylogenetic tree. Access to getting and setting species and genus is provided, but not to any of the other node types (eg: "phylum", "class", "order", "family"). There's plenty of scope for making the model more sophisticated, if this is ever needed. A methods are also provided for storing common names, and subspecies. =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 the web: https://redmine.open-bio.org/projects/bioperl/ =head1 AUTHOR James Gilbert email B =head1 CONTRIBUTORS Sendu Bala, bix@sendu.me.uk Chris Fields, 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::Species; use strict; use warnings; use Bio::DB::Taxonomy; use Bio::Tree::Tree; use Bio::Taxon; use base qw(Bio::Root::Root Bio::Tree::NodeI); =head2 new Title : new Usage : my $obj = Bio::Species->new(-classification => \@class) Function: Build a new Species object Returns : Bio::Species object Args : -ncbi_taxid => NCBI taxonomic ID (optional) -classification => arrayref of classification =cut sub new { my($class, @args) = @_; my $self = $class->SUPER::new(@args); # Bio::Species is now just a proxy object that just observes the NodeI # interface methods but delegates them to the proper classes (Bio::Taxon and # Bio::Tree::Tree). This will be surplanted by the much simpler # Bio::Taxon/Bio::DB::Taxonomy modules in the future. # Using a proxy allows proper GC w/o using weaken(). This just wraps the # older instances, which have no reciprocal refs (thus no circular refs). # This can then run proper cleanup $self->taxon(Bio::Taxon->new(@args)); my ($org, $sp, $var, $classification) = $self->_rearrange([qw(ORGANELLE SUB_SPECIES VARIANT CLASSIFICATION)], @args); if (defined $classification && ref($classification) eq "ARRAY" && @{$classification}) { $self->classification(@$classification); } else { $self->tree(Bio::Tree::Tree->new()); } defined $org && $self->organelle($org); defined $sp && $self->sub_species($sp); defined $var && $self->variant($var); return $self; } =head2 classification Title : classification Usage : $self->classification(@class_array); @classification = $self->classification(); Function: Get/set the lineage of this species. The array provided must be in the order ... ---> SPECIES, GENUS ---> KINGDOM ---> etc. Example : $obj->classification(qw( 'Homo sapiens' Homo Hominidae Catarrhini Primates Eutheria Mammalia Vertebrata Chordata Metazoa Eukaryota)); Returns : Classification array Args : Classification array OR A reference to the classification array. In the latter case if there is a second argument and it evaluates to true, names will not be validated. NB: in any case, names are never validated anyway. =cut sub classification { my ($self, @vals) = @_; my $taxon = $self->taxon; if (@vals) { if (ref($vals[0]) eq 'ARRAY') { @vals = @{$vals[0]}; } $vals[1] ||= ''; # make sure the lineage contains us as first or second element # (lineage may have subspecies, species, genus ...) my $name = $taxon->node_name; my ($genus, $species) = (quotemeta($vals[1]), quotemeta($vals[0])); if ($name && ($name !~ m{$species}i && $name !~ m{$genus}i) && $name !~ m{$vals[1] $vals[0]}i) { if ($name =~ /^$vals[1] $vals[0]\s*(.+)/) { # just assume the problem is someone tried to make a Bio::Species starting at subspecies #*** no idea if this is appropriate! just a possible fix related to bug 2092 $self->sub_species($1); $name = $taxon->node_name("$vals[1] $vals[0]"); } else { $self->warn("The supplied lineage does not start near '$name' (I was supplied '".join(" | ", @vals)."')"); } } # create a lineage for ourselves my $db = Bio::DB::Taxonomy->new(-source => 'list', -names => [reverse @vals]); unless ($taxon->scientific_name) { # assume we're supposed to be the leaf of the supplied lineage $self->taxon->scientific_name($vals[0]); } unless ($taxon->rank) { # and that we are rank species $taxon->rank('species'); } $taxon->db_handle($db); $self->tree(Bio::Tree::Tree->new(-node => $taxon)); } @vals = (); foreach my $node ($self->tree->get_lineage_nodes($taxon), $taxon) { unshift(@vals, $node->scientific_name || next); } return @vals; } =head2 ncbi_taxid Title : ncbi_taxid Usage : $obj->ncbi_taxid($newval) Function: Get/set the NCBI Taxon ID Returns : the NCBI Taxon ID as a string Args : newvalue to set or undef to unset (optional) =cut =head2 common_name Title : common_name Usage : $self->common_name( $common_name ); $common_name = $self->common_name(); Function: Get or set the common name of the species Example : $self->common_name('human') Returns : The common name in a string Args : String, which is the common name (optional) =cut =head2 division Title : division Usage : $obj->division($newval) Function: Genbank Division for a species Returns : value of division (a scalar) Args : value of division (a scalar) =cut =head2 species Title : species Usage : $self->species( $species ); $species = $self->species(); Function: Get or set the species name. Note that this is NOT genus and species -- use $self->binomial() for that. Example : $self->species('sapiens'); Returns : species name as string (NOT genus and species) Args : species name as string (NOT genus and species) =cut sub species { my ($self, $species) = @_; if ($species) { $self->{_species} = $species; } unless (defined $self->{_species}) { # work it out from our nodes my $species_taxon = $self->tree->find_node(-rank => 'species'); unless ($species_taxon) { # just assume we are rank species $species_taxon = $self->taxon; } $species = $species_taxon->scientific_name; # # munge it like the Bio::SeqIO modules used to do # (more or less copy/pasted from old Bio::SeqIO::genbank, hence comments # referring to 'ORGANISM' etc.) # my $root = $self->tree->get_root_node; unless ($root) { $self->tree(Bio::Tree::Tree->new(-node => $species_taxon)); $root = $self->tree->get_root_node; } my @spflds = split(' ', $species); if (@spflds > 1 && $root->node_name ne 'Viruses') { $species = undef; # does the next term start with uppercase? # yes: valid genus; no then unconventional # e.g. leaf litter basidiomycete sp. Collb2-39 my $genus; if ($spflds[0] =~ m/^[A-Z]/) { $genus = shift(@spflds); } else { undef $genus; } my $sub_species; if (@spflds) { while (my $fld = shift @spflds) { $species .= "$fld "; # does it have subspecies or varieties? last if ($fld =~ m/(sp\.|var\.)/); } chop $species; # last space $sub_species = join ' ',@spflds if(@spflds); } else { $species = 'sp.'; } # does ORGANISM start with any words which make its genus undefined? # these are in @unkn_genus # this in case species starts with uppercase so isn't caught above. # alter common name if required my $unconv = 0; # is it unconventional species name? my @unkn_genus = ('unknown','unclassified','uncultured','unidentified'); foreach (@unkn_genus) { if ($genus && $genus =~ m/$_/i) { $species = $genus . " " . $species; undef $genus; $unconv = 1; last; } elsif ($species =~ m/$_/i) { $unconv = 1; last; } } if (!$unconv && !$sub_species && $species =~ s/^(\w+)\s(\w+)$/$1/) { # need to extract subspecies from conventional ORGANISM format. # Will the 'word' in a two element species name # e.g. $species = 'thummi thummi' => $species='thummi' & # $sub_species='thummi' $sub_species = $2; } $self->genus($genus) if $genus; $self->sub_species($sub_species) if $sub_species; } $self->{_species} = $species; } return $self->{_species}; } =head2 genus Title : genus Usage : $self->genus( $genus ); $genus = $self->genus(); Function: Get or set the scientific genus name. Example : $self->genus('Homo'); Returns : Scientific genus name as string Args : Scientific genus name as string =cut sub genus { my ($self, $genus) = @_; # TODO: instead of caching the raw name, cache the actual node instance. if ($genus) { $self->{_genus} = $genus; } unless (defined $self->{_genus}) { my $genus_taxon = $self->tree->find_node(-rank => 'genus'); unless ($genus_taxon) { # just assume our ancestor is rank genus $genus_taxon = $self->taxon->ancestor; } $self->{_genus} = $genus_taxon->scientific_name if $genus_taxon; } return $self->{_genus}; } =head2 sub_species Title : sub_species Usage : $obj->sub_species($newval) Function: Get or set the scientific subspecies name. Returns : value of sub_species Args : newvalue (optional) =cut sub sub_species { my ($self, $sub) = @_; # TODO: instead of caching the raw name, cache the actual node instance. if (!defined $self->{'_sub_species'}) { my $ss_taxon = $self->tree->find_node(-rank => 'subspecies'); if ($ss_taxon) { if ($sub) { $ss_taxon->scientific_name($sub); # *** weakening ref to our root node in species() to solve a # memory leak means that we have a subspecies taxon to set # during the first call to species(), but it has vanished by # the time a user subsequently calls sub_species() to get the # value. So we 'cheat' and just store the subspecies name in # our self hash, instead of the tree. Is this a problem for # a Species object? Can't decide --sendu # This can now be changed to deal with this information on the # fly. For now, the caching remains, but maybe we should just # let these things deal with mutable data as needed? -- cjfields $self->{'_sub_species'} = $sub; } return $ss_taxon->scientific_name; } else { # should we create a node here to be added to the tree? } } # fall back to direct storage on self $self->{'_sub_species'} = $sub if $sub; return $self->{'_sub_species'}; } =head2 variant Title : variant Usage : $obj->variant($newval) Function: Get/set variant information for this species object (strain, isolate, etc). Example : Returns : value of variant (a scalar) Args : new value (a scalar or undef, optional) =cut sub variant{ my ($self, $var) = @_; # TODO: instead of caching the raw name, cache the actual node instance. if (!defined $self->{'_variant'}) { my $var_taxon = $self->tree->find_node(-rank => 'variant'); if ($var_taxon) { if ($var) { $var_taxon->scientific_name($var); } return $var_taxon->scientific_name; } else { # should we create a node here to be added to the tree? } } # fall back to direct storage on self $self->{'_variant'} = $var if $var; return $self->{'_variant'}; } =head2 binomial Title : binomial Usage : $binomial = $self->binomial(); $binomial = $self->binomial('FULL'); Function: Returns a string "Genus species", or "Genus species subspecies", if the first argument is 'FULL' (and the species has a subspecies). Args : Optionally the string 'FULL' to get the full name including the subspecies. Note : This is just munged from the taxon() name =cut sub binomial { my ($self, $full) = @_; my $rank = $self->taxon->rank || 'no rank'; my ($species, $genus) = ($self->species, $self->genus); unless (defined $species) { $species = 'sp.'; $self->warn("requested binomial but classification was not set"); } $genus = '' unless( defined $genus); $species =~ s/$genus\s+//; my $bi = "$genus $species"; if (defined($full) && $full =~ /full/i) { my $ssp = $self->sub_species; if ($ssp) { $ssp =~ s/$bi\s+//; $ssp =~ s/$species\s+//; $bi .= " $ssp"; } } return $bi; } =head2 validate_species_name Title : validate_species_name Usage : $result = $self->validate_species_name($string); Function: Validate the species portion of the binomial Args : string Notes : The string following the "genus name" in the NCBI binomial is so variable that it's not clear that this is a useful function. Consider the binomials "Simian 11 rotavirus (serotype 3 / strain SA11-Patton)", or "St. Thomas 3 rotavirus", straight from GenBank. This is particularly problematic in microbes and viruses. As such, this isn't actually used automatically by any Bio::Species method. =cut sub validate_species_name { my( $self, $string ) = @_; return 1 if $string eq "sp."; return 1 if $string =~ /strain/; return 1 if $string =~ /^[a-z][\w\s-]+$/i; $self->throw("Invalid species name '$string'"); } sub validate_name { return 1; } =head2 organelle Title : organelle Usage : $self->organelle( $organelle ); $organelle = $self->organelle(); Function: Get or set the organelle name Example : $self->organelle('Chloroplast') Returns : The organelle name in a string Args : String, which is the organelle name Note : TODO: We currently do not know where the organelle definition will eventually go. This is stored in the source seqfeature, though, so the information isn't lost. =cut sub organelle { my($self) = shift; return $self->{'_organelle'} = shift if @_; return $self->{'_organelle'}; } =head2 Delegation The following methods delegate to the internal Bio::Taxon instance. This is mainly to allow code continue using older methods, with the mind to migrate to using Bio::Taxon and related methods when this class is deprecated. =cut sub node_name {shift->taxon->node_name(@_)} sub scientific_name {shift->taxon->node_name(@_)} sub id {shift->taxon->id(@_)} sub object_id {shift->taxon->id(@_)} sub ncbi_taxid {shift->taxon->ncbi_taxid(@_)} sub rank {shift->taxon->rank(@_)} sub division {shift->taxon->division(@_)} sub common_names {shift->taxon->common_names(@_)} sub common_name {shift->taxon->common_names(@_)} sub genetic_code {shift->taxon->genetic_code(@_)} sub mitochondrial_genetic_code {shift->taxon->mitochondrial_genetic_code(@_)} sub create_date { shift->taxon->create_date(@_)} sub pub_date { shift->taxon->pub_date(@_)} sub update_date { shift->taxon->update_date(@_)} sub db_handle { shift->taxon->db_handle(@_)} sub parent_id { shift->taxon->parent_id(@_)} sub parent_taxon_id { shift->taxon->parent_id(@_)} sub version { shift->taxon->version(@_)} sub authority { shift->taxon->authority(@_)} sub namespace { shift->taxon->namespace(@_)} sub ancestor { shift->taxon->ancestor(@_)} sub get_Parent_Node { shift->taxon->get_Parent_Node(@_)} sub each_Descendent { shift->taxon->each_Descendent(@_)} sub get_Children_Nodes { shift->taxon->get_Children_Nodes(@_)} sub remove_Descendant { shift->taxon->remove_Descendant(@_)} sub name { shift->taxon->name(@_)} =head2 taxon Title : taxon Usage : $obj->taxon Function : retrieve the internal Bio::Taxon instance Returns : A Bio::Taxon. If one is not previously set, an instance is created lazily Args : Bio::Taxon (optional) =cut sub taxon { my ($self, $taxon) = @_; if (!$self->{taxon} || $taxon) { $taxon ||= Bio::Taxon->new(); $self->{taxon} = $taxon; } $self->{taxon}; } =head2 tree Title : tree Usage : $obj->tree Function : Returns a Bio::Tree::Tree object Returns : A Bio::Tree::Tree. If one is not previously set, an instance is created lazily Args : Bio::Tree::Tree (optional) =cut sub tree { my ($self, $tree) = @_; if (!$self->{tree} || $tree) { $tree ||= Bio::Tree::Tree->new(); delete $tree->{_root_cleanup_methods}; $self->{tree} = $tree; } $self->{tree}; } sub DESTROY { my $self = shift; $self->tree->cleanup_tree; delete $self->{tree}; $self->taxon->node_cleanup; } 1;