Bio::SeqFeature::Tools::TypeMapper - maps $seq_feature->primary_tag
use Bio::SeqIO; use Bio::SeqFeature::Tools::TypeMapper; # first fetch a genbank SeqI object $seqio = Bio::SeqIO->new(-file=>'AE003644.gbk', -format=>'GenBank'); $seq = $seqio->next_seq(); $tm = Bio::SeqFeature::Tools::TypeMapper->new; # map all the types in the sequence $tm->map_types(-seq=>$seq, {CDS=>'ORF', variation=>sub { my $f = shift; $f->length > 1 ? 'variation' : 'SNP' }, }); # alternatively, use the hardcoded SO mapping $tm->map_types_to_SO(-seq=>$seq);
This class implements an object for mapping between types; for example, the types in a genbank feature table, and the types specified in the Sequence Ontology.
You can specify your own mapping, either as a simple hash index, or by providing your own subroutines.
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The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _
Title : new Usage : $unflattener = Bio::SeqFeature::Tools::TypeMapper->new(); Function: constructor Example : Returns : a new Bio::SeqFeature::Tools::TypeMapper Args : see below
Title : typemap Usage : $obj->typemap($newval) Function: Example : Returns : value of typemap (a scalar) Args : on set, new value (a scalar or undef, optional)
Title : map_types Usage : Function: Example : Returns : Args :
Title : map_types_to_SO Usage : Function: Example : Returns : Args :
hardcodes the genbank to SO mapping
Based on revision 1.22 of SO
Please see the actual code for the mappings
Taken from
http://song.sourceforge.net/FT_SO_map.txt
Title : get_relationship_type_by_parent_child Usage : $type = $tm->get_relationship_type_by_parent_child($parent_sf, $child_sf); Usage : $type = $tm->get_relationship_type_by_parent_child('mRNA', 'protein'); Function: given two features where the parent contains the child, will determine what the relationship between them in Example : Returns : Args : parent SeqFeature, child SeqFeature OR parent type string, child type string OR
bioperl Seq::FeatureHolderI hierarchies are equivalent to unlabeled graphs (where parent nodes are the containers, and child nodes are the features being contained). For example, a feature of type mRNA can contain features of type exon.
Some external representations (eg chadoxml or chaosxml) require that the edges in the feature relationship graph are labeled. For example, the type between mRNA and exon would be part_of. Although it stretches the bioperl notion of containment, we could have a CDS contained by an mRNA (for example, the Bio::SeqFeature::Tools::Unflattener module takes genbank records and makes these kind of links. The relationship here would be produced_by
In chado speak, the child is the subject feature and the parent is the object feature
To install Bio::Seq, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Bio::Seq
CPAN shell
perl -MCPAN -e shell install Bio::Seq
For more information on module installation, please visit the detailed CPAN module installation guide.