Provided by: libbio-perl-perl_1.6.923-1_all
NAME
Bio::Search::Tiling::TilingI - Abstract interface for an HSP tiling module
SYNOPSIS
Not used directly. Useful POD here for developers, however. The interface is desgined to make the following code conversion as simple as possible: From: # Bio::Search::SearchUtils-based while ( local $_ = $result->next_hit ) { printf( "E-value: %g; Fraction aligned: %f; Number identical: %d\n", $hit->significance, $hit->frac_aligned_query, $hit->num_identical); } To: # TilingI-based while ( local $_ = $result->next_hit ) { my $tiling = Bio::Search::Tiling::MyTiling($_); printf( "E-value: %g; Fraction aligned: %f; Number identical: %d\n", $hit->significance, $tiling->frac_aligned_query, $tiling->num_identical); }
DESCRIPTION
This module provides strong suggestions for any intended HSP tiling object implementation. An object subclassing TilingI should override the methods defined here according to their descriptions below. See the section STATISTICS METHODS for hints on implementing methods that are valid across different algorithms and report types.
FEEDBACK
Mailing Lists User feedback is an integral part of the evolution of this and other Bioperl modules. Send your comments and suggestions preferably to the Bioperl mailing list. Your participation is much appreciated. bioperl-l@bioperl.org - General discussion http://bioperl.org/wiki/Mailing_lists - About the mailing lists Support Please direct usage questions or support issues to the mailing list: bioperl-l@bioperl.org rather than to the module maintainer directly. Many experienced and reponsive experts will be able look at the problem and quickly address it. Please include a thorough description of the problem with code and data examples if at all possible. Reporting Bugs Report bugs to the Bioperl bug tracking system to help us keep track of the bugs and their resolution. Bug reports can be submitted via the web: https://redmine.open-bio.org/projects/bioperl/
AUTHOR - Mark A. Jensen
Email maj@fortinbras.us
APPENDIX
The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _ STATISTICS METHODS The tiling statistics can be thought of as global counterparts to similar statistics defined for the individual HSPs. We therefore prescribe definitions for many of the synonymous methods defined in Bio::Search::HSP::HSPI. The tiling statistics must be able to keep track of the coordinate systems in which both the query and subject sequences exist; i.e., either nucleotide or amino acid. This information is typically inferred from the name of the algorithm used to perform the original search (contained in "$hit_object->algorithm"). Here is a table of algorithm information that may be useful (if you trust us). algorithm query on hit coordinates(q/h) --------- ------------ --------------- blastn dna on dna dna/dna blastp aa on aa aa/aa blastx xna on aa dna/aa tblastn aa on xna aa/dna tblastx xna on xna dna/dna fasta dna on dna dna/dna fasta aa on aa aa/aa fastx xna on aa dna/aa fasty xna on aa dna/aa tfasta aa on xna aa/dna tfasty aa on xna aa/dna megablast dna on dna dna/dna xna: translated nucleotide data Statistics methods must also be aware of differences in reporting among the algorithms. Hit attributes are not necessarily normalized over all algorithms. Devs, please feel free to add examples to the list below. NCBI BLAST vs WU-BLAST (AB-BLAST) lengths The total length of the alignment is reported differently between these two flavors. "$hit_object->length()" will contain the number in the denominator of the stats line; i.e., 120 in Identical = 34/120 Positives = 67/120 NCBI BLAST uses the total length of the query sequence as input by the user (a.k.a. "with gaps"). WU-BLAST uses the length of the query sequence actually aligned by the algorithm (a.k.a. "without gaps"). Finally, developers should remember that sequence data may or may not be associated with the HSPs contained in the hit object. This will typically depend on whether a full report (e.g, "blastall -m0") or a summary (e.g., "blastall -m8") was parsed. Statistics methods that depend directly on the sequence data will need to check that that data is present. identities Title : identities Alias : num_identical Usage : $num_identities = $tiling->identities() Function: Return the estimated or exact number of identities in the tiling, accounting for overlapping HSPs Example : Returns : number of identical residue pairs Args : conserved Title : conserved Alias : num_conserved Usage : $num_conserved = $tiling->conserved() Function: Return the estimated or exact number of conserved sites in the tiling, accounting for overlapping HSPs Example : Returns : number of conserved residue pairs Args : length Title : length Usage : $max_length = $tiling->length($type) Function: Return the total number of residues of the subject or query sequence covered by the tiling Returns : number of "logical" residues covered Args : scalar $type, one of 'hit', 'subject', 'query' frac_identical Title : frac_identical Usage : $tiling->frac_identical($type) Function: Return the fraction of sequence length consisting of identical pairs Returns : scalar float Args : scalar $type, one of 'hit', 'subject', 'query' Note : This method must take account of the $type coordinate system and the length reporting method (see STATISTICS METHODS above) percent_identity Title : percent_identity Usage : $tiling->percent_identity($type) Function: Return the fraction of sequence length consisting of identical pairs as a percentage Returns : scalar float Args : scalar $type, one of 'hit', 'subject', 'query' frac_conserved Title : frac_conserved Usage : $tiling->frac_conserved($type) Function: Return the fraction of sequence length consisting of conserved pairs Returns : scalar float Args : scalar $type, one of 'hit', 'subject', 'query' Note : This method must take account of the $type coordinate system and the length reporting method (see STATISTICS METHODS above) percent_conserved Title : percent_conserved Usage : $tiling->percent_conserved($type) Function: Return the fraction of sequence length consisting of conserved pairs as a percentage Returns : scalar float Args : scalar $type, one of 'hit', 'subject', 'query' frac_aligned Title : frac_aligned Usage : $tiling->frac_aligned($type) Function: Return the fraction of B<input> sequence length consisting that was aligned by the algorithm Returns : scalar float Args : scalar $type, one of 'hit', 'subject', 'query' Note : This method must take account of the $type coordinate system and the length reporting method (see STATISTICS METHODS above) range Title : range Usage : $tiling->range($type) Function: Returns the extent of the longest tiling as ($min_coord, $max_coord) Returns : array of two scalar integers Args : scalar $type, one of 'hit', 'subject', 'query'
TILING ITERATORS
next_tiling Title : next_tiling Usage : @hsps = $self->next_tiling($type); Function: Obtain a tiling of HSPs over the $type ('hit', 'subject', 'query') sequence Example : Returns : an array of HSPI objects Args : scalar $type: one of 'hit', 'subject', 'query', with 'subject' an alias for 'hit' rewind_tilings Title : rewind_tilings Usage : $self->rewind_tilings($type) Function: Reset the next_tilings($type) iterator Example : Returns : True on success Args : scalar $type: one of 'hit', 'subject', 'query', with 'subject' an alias for 'hit'
INFORMATIONAL ACCESSORS
algorithm Title : algorithm Usage : $tiling->algorithm Function: Retrieve the algorithm name associated with the invocant's hit object Returns : scalar string Args :