table of contents
Bio::Assembly::IO::tigr(3pm) | User Contributed Perl Documentation | Bio::Assembly::IO::tigr(3pm) |
NAME¶
Bio::Assembly::IO::tigr - Driver to read and write assembly files in the TIGR Assembler v2 default format.
SYNOPSIS¶
# Building an input stream use Bio::Assembly::IO; # Assembly loading methods my $asmio = Bio::Assembly::IO->new( -file => 'SGC0-424.tasm', -format => 'tigr' ); my $scaffold = $asmio->next_assembly; # Do some things on contigs... # Assembly writing methods my $outasm = Bio::Assembly::IO->new( -file => ">SGC0-modified.tasm", -format => 'tigr' ); $outasm->write_assembly( -scaffold => $assembly, -singlets => 1 );
DESCRIPTION¶
This package loads and writes assembly information in/from files in the default TIGR Assembler v2 format. The files are lassie-formatted and often have the .tasm extension. This module was written to be used as a driver module for Bio::Assembly::IO input/output.
Implementation¶
Assemblies are loaded into Bio::Assembly::Scaffold objects composed of Bio::Assembly::Contig and Bio::Assembly::Singlet objects. Since aligned reads and contig gapped consensus can be obtained in the tasm files, only aligned/gapped sequences are added to the different BioPerl objects.
Additional assembly information is stored as features. Contig objects have SeqFeature information associated with the primary_tag:
_main_contig_feature:$contig_id -> misc contig information _quality_clipping:$read_id -> quality clipping position
Read objects have sub_seqFeature information associated with the primary_tag:
_main_read_feature:$read_id -> misc read information
Singlets are considered by TIGR Assembler as contigs of one sequence. Contigs are represented here with features having these primary_tag:
_main_contig_feature:$contig_id _quality_clipping:$read_primary_id _main_read_feature:$read_primary_id _aligned_coord:$read_primary_id
THE TIGR TASM LASSIE FORMAT¶
Description¶
In the TIGR tasm lassie format, contigs are separated by a line containing a single pipe character "|", whereas the reads in a contig are separated by a blank line. Singlets can be present in the file and are represented as a contig composed of a single sequence.
Other than the two above-mentioned separators, each line has an attribute name, followed a tab and then an attribute value.
The tasm format is used by more TIGR applications than just TIGR Assembler. Some of the attributes are not used by TIGR Assembler or have constant values. They are indicated by an asterisk *
Contigs have the following attributes:
asmbl_id -> contig ID sequence -> contig ungapped consensus sequence (ambiguities are lowercase) lsequence -> gapped consensus sequence (lowercase ambiguities) quality -> gapped consensus quality score (in hexadecimal) seq_id -> * com_name -> * type -> * method -> always 'asmg' * ed_status -> * redundancy -> fold coverage of the contig consensus perc_N -> percent of ambiguities in the contig consensus seq# -> number of sequences in the contig full_cds -> * cds_start -> start of coding sequence * cds_end -> end of coding sequence * ed_pn -> name of editor (always 'GRA') * ed_date -> date and time of edition comment -> some comments * frameshift -> *
Each read has the following attributes:
seq_name -> read name asm_lend -> position of first base on contig ungapped consensus sequence asm_rend -> position of last base on contig ungapped consensus sequence seq_lend -> start of quality-trimmed sequence (aligned read coordinates) seq_rend -> end of quality-trimmed sequence (aligned read coordinates) best -> always '0' * comment -> some comments * db -> database name associated with the sequence (e.g. >my_db|seq1234) offset -> offset of the sequence (gapped consensus coordinates) lsequence -> aligned read sequence (ambiguities are uppercase)
When asm_rend < asm_lend, the sequence was on the complementary DNA strand but its reverse complement is shown in the aligned sequence of the assembly file, not the original read.
Ambiguities are reflected in the contig consensus sequence as lowercase IUPAC characters: a c g t u m r w s y k x n . In the read sequences, however, ambiguities are uppercase: M R W S Y K X N
Example¶
Example of a contig containing three sequences:
sequence CGATGCTGTACGGCTGTTGCGACAGATTGCGCTGGGTCGATACCGCGTTGGTGATCGGCTTGTTCAGCGGGCTCTGGTTCGGCGACAGCGCGGCGATCTTGGCGGCTGCGAAGGTTGCCGGCGCAATCATGCGCTGCTGACCGTTGACCTGGTCCTGCCAGTACACCCAGTCGCCCACCATGACCTTCAGCGCGTAGCTGTCACAGCCGGCTGTGGTCAGCGCAGTGGCGACGGTGGTGTAGGAGGCGCCAGCAACACCTTGGGTGATCATGTAGCAGCCTTCTGACAGGCCGTAGGTCAGCATGGTCGGCCACTGGGTACCAGTCAGTCGGGTCAACCGAGATTCGCAsCTGAGCGCCACTGCCGCGCAGAGCGTACATGCCCTTGCGGGTCGCGCCGGTAACACCATCCACGCCGATCAGAACTGCGTCGGTGATGGTGGTGTTACCCGAGGTGCCAGTGGTGAAGGCGACGGTCTGGGTGCTGGCCACAGGCGCCAGAGTGGTCGCGCCAACGGTGGCGATGACCAGTTGCGATGGGCCACGGATACCTGACTGCCCGTTGTTCACGGCGCTGACGATGTTCTGCCACAGCGCCAGGCCAGAGCCGGTGATGTTGTCGAACACTTCGGGCGCAACGCCAGGGAGCGAGACGGTCAGCTTCCAGCTCGAAGCAGCGGAGCCAGTAGCCAGGGCGGCGCTGAGCGAGTTGCCGAGCGTGCCGGTGTAGAACGCGGTCAGCGTGGCGCCGGTGGCGGCGGCAGTGTCCTTCAGCGCACTGGTCGCGGCGGTGTCGGTGCCGTCAGTGACGCGCACGGCGCGGATGTTCGAGGCGCCGCCCTGGATTGATACCGCCAGCGCGGTGCACAGGTCGTACTTGCGCACGGTCyGAGTGCCGAACTTCTGCGATGCGTCACCTGGCGAGCCGATAaGCGTGGCGCTGTTCACCGGCCCCCAGTCAGCAATGCCGACGATGCCGAGAATGTCAGTCGGGACGCCATTGATGTAGCGGGTCTTGGGCGCCACTATTTGTATGTACAAATCTGGCGCAGATAAAGCCGCCGTATTCAAATAACCAGCAGGATAGATAGGCATCACGCCTCCAGAATGAAAAAGGCCACCGATTAGGTGGCCTTTGTTGTGTTCGGCTGGCTGTTAGAGCAGCAGCCCGTTTTCCCGCGCAAACGCGAATGGGTCCTTGTCATGCTTCCTGCAATTGCAGGTAGGACAAAGAATTTGCAGGTTGGATTTGTCGTTCGATCCGCCCTTTGCAAGCGGGAACACGTGGTCAACGTGATACCCATCCCTTATGGATATAGTGCACATGGCGCATTTCCAGCGCTGAGCAGCCAGCAAAAATTTTATGTCGTCGCCGGTGTGTGAGCCGACAGCATTTTTCTTGCGAGCCTTGTATGTCCGCGAGAGTGAACGAACTTGCTCCTTGTTGGCTGTCTTCCAGAGCTTTTGAGTAAGCGCACAGAGATCCTTGTTTCTTGATCTCCACTCTCTGGTTGCGGAAAT lsequence CGATGCTGTACGGCTGTTGCGACAGATTGCGCTGGGTCGATACCGCGTTGGTGATCGGCTTGTTCAGCGGGCTCTGGTTCGGCGACAGCGCGGCGATCTTGGCGGCTGCGAAGGTTGCCGGCGCAATCATGCGCTGCTGACCGTTGACCTGGTCCTGCCAGTACACCCAGTCGCCCACCATGACCTTCAGCGCGTAGCTGTCACAGCCGGCTGTGGTCAGCGCAGTGGCGACGGTGGTGTAGGAGGCGCCAGCAACACCTTGGGTGATCATGTAGCAGCCTTCTGACAGGCCGTAGGTCAGCATGGTCGGCCACTGGGTACCAGTCAGTCGGGTCAACCGAGATTCG-CAsCTGAGCGCCACTGCCGCGCAGAGCGTACATGCCCTTGCGGGTCGCGCCGGTAACACCATCCACGCCGATCAGAACTGCGTCGGTGATGGTGGTGTTACCCGAGGTGCCAGTGGTGAAGGCGACGGTCTGGGTGCTGGCCACAGGCGCCAGAGTGGTCGCGCCAACGGTGGCGATGACCAGTTGCGATGGGCCACGGATACCTGACTGCCCGTTGTTCACGGCGCTGACGATGTTCTGCCACAGCGCCAGGCCAGAGCCGGTGATGTTGTCGAACACTTCGGGCGCAACGCCAGGGAGCGAGACGGTCAGCTTCCAGCTCGAAGCAGCGGAGCCAGTAGCCAGGGCGGCGCTGAGCGAGTTGCCGAGCGTGCCGGTGTAGAACGCGGTCAGCGTGGCGCCGGTGGCGGCGGCAGTGTCCTTCAGCGCACTGGTCGCGGCGGTGTCGGTGCCGTCAGTGACGCGCACGGCGCGGATGTTCGAGGCGCCGCCCTGGATTGATACCGCCAGCGCGGTGCACAGGTCGTACTTGCGCACGGTCyGAGTGCCGAACTTCTGCGATGCGTCACCTGGCGAGCCGATAaGCGTGGCGCTGTTCACCGGCCCCCAGTCAGCAATGCCGACGATGCCGAGAATGTCAGTCGGGACGCCATTGATGTAGCGGGTCTTGGGCGCCACTATTTGTATGTACAAATCTGGCGCAGATAAAGCCGCCGTATTCAAATAACCAGCAGGATAGATAGGCATCACGCCTCCAGAATGAAAAAGGCCACCGATTAGGTGGCCTTTGTTGTGTTCGGCTGGCTGTTAGAGCAGCAGCCCGTTTTCCCGCGCAAACGCGAATGGGTCCTTGTCATGCTTCCTGCAATTGCAGGTAGGACAAAGAATTTGCAGGTTGGATTTGTCGTTCGATCCGCCCTTTGCAAGCGGGAACACGTGGTCAACGTGATACCCATCCCTTATGGATATAGTGCACATGGCGCATTTCCAGCGCTGAGCAGCCAGCAAAAATTTTATGTCGTCGCCGGTGTGTGAGCCGACAGCATTTTTCTTGCGAGCCTTGTATGTCCGCGAGAGTGAACGAACTTGCTCCTTGTTGGCTGTCTTCCAGAGCTTTTGAGTAAGCGCACAGAGATCCTTGTTTCTTGATCTCCACTCTCTGGTTGCGGAAAT quality 0x0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0505050505050505050E0505160505050505050505050505050505050505050505050505050505050303030303030303030303030303030303030303030303030303030303030303030303030303030303030303030303030303030303030303030303030303030303090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0404040404040404041604040404040404040404040404040404040404040404040404040404040404040404040404040404040E0404040404040404040B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090909090B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B0B asmbl_id 93 seq_id com_name type method asmg ed_status redundancy 1.11 perc_N 0.20 seq# 3 full_cds cds_start cds_end ed_pn GRA ed_date 08/16/07 17:10:12 comment frameshift seq_name SDSU_RFPERU_010_C09.x01.phd.1 asm_lend 1 asm_rend 4423 seq_lend 1 seq_rend 442 best 0 comment db offset 0 lsequence CGATGCTGTACGGCTGTTGCGACAGATTGCGCTGGGTCGATACCGCGTTGGTGATCGGCTTGTTCAGCGGGCTCTGGTTCGGCGACAGCGCGGCGATCTTGGCGGCTGCGAAGGTTGCCGGCGCAATCATGCGCTGCTGACCGTTGACCTGGTCCTGCCAGTACACCCAGTCGCCCACCATGACCTTCAGCGCGTAGCTGTCACAGCCGGCTGTGGTCAGCGCAGTGGCGACGGTGGTGTAGGAGGCGCCAGCAACACCTTGGGTGATCATGTAGCAGCCTTCTGACAGGCCGTAGGTCAGCATGGTCGGCCACTGGGTACCAGTCAGTCGGGTCAACCGAGATTCG-CAGCTGAGCGCCACTGCCGCGCAGAGCGTACATGCCCTTGCGGGTCGCGCCGGTAACACCATCCACGCCGATCAGAACTGCGTCGGTGATGGTGG seq_name SDSU_RFPERU_002_H12.x01.phd.1 asm_lend 339 asm_rend 940 seq_lend 1 seq_rend 602 best 0 comment db offset 338 lsequence CGAGATTCGCCACCTGAGCGCCACTGCCGCGCAGAGCGTACATGCCCTTGCGGGTCGCGCCGGTAACACCATCCACGCCGATCAGAACTGCGTCGGTGATGGTGGTGTTACCCGAGGTGCCAGTGGTGAAGGCGACGGTCTGGGTGCTGGCCACAGGCGCCAGAGTGGTCGCGCCAACGGTGGCGATGACCAGTTGCGATGGGCCACGGATACCTGACTGCCCGTTGTTCACGGCGCTGACGATGTTCTGCCACAGCGCCAGGCCAGAGCCGGTGATGTTGTCGAACACTTCGGGCGCAACGCCAGGGAGCGAGACGGTCAGCTTCCAGCTCGAAGCAGCGGAGCCAGTAGCCAGGGCGGCGCTGAGCGAGTTGCCGAGCGTGCCGGTGTAGAACGCGGTCAGCGTGGCGCCGGTGGCGGCGGCAGTGTCCTTCAGCGCACTGGTCGCGGCGGTGTCGGTGCCGTCAGTGACGCGCACGGCGCGGATGTTCGAGGCGCCGCCCTGGATTGATACCGCCAGCGCGGTGCACAGGTCGTACTTGCGCACGGTCCGAGTGCCGAACTTCTGCGATGCGTCACCTGGCGAGCCGATA-GCGTGGCGC seq_name SDSU_RFPERU_009_E07.x01.phd.1 asm_lend 880 asm_rend 1520 seq_lend 641 seq_rend 1 best 0 comment db offset 8803 lsequence CGCACGGTCTGAGTGCCGAACTTCTGCGATGCGTCACCTGGCGAGCCGATAAGCGTGGCGCTGTTCACCGGCCCCCAGTCAGCAATGCCGACGATGCCGAGAATGTCAGTCGGGACGCCATTGATGTAGCGGGTCTTGGGCGCCACTATTTGTATGTACAAATCTGGCGCAGATAAAGCCGCCGTATTCAAATAACCAGCAGGATAGATAGGCATCACGCCTCCAGAATGAAAAAGGCCACCGATTAGGTGGCCTTTGTTGTGTTCGGCTGGCTGTTAGAGCAGCAGCCCGTTTTCCCGCGCAAACGCGAATGGGTCCTTGTCATGCTTCCTGCAATTGCAGGTAGGACAAAGAATTTGCAGGTTGGATTTGTCGTTCGATCCGCCCTTTGCAAGCGGGAACACGTGGTCAACGTGATACCCATCCCTTATGGATATAGTGCACATGGCGCATTTCCAGCGCTGAGCAGCCAGCAAAAATTTTATGTCGTCGCCGGTGTGTGAGCCGACAGCATTTTTCTTGCGAGCCTTGTATGTCCGCGAGAGTGAACGAACTTGCTCCTTGTTGGCTGTCTTCCAGAGCTTTTGAGTAAGCGCACAGAGATCCTTGTTTCTTGATCTCCACTCTCTGGTTGCGGAAAT |
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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 lists 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 the bugs and their resolution. Bug reports can be submitted via email or the web:
bioperl-bugs@bio.perl.org https://github.com/bioperl/bioperl-live/issues
AUTHOR - Florent E Angly¶
Email florent dot angly at gmail dot com
APPENDIX¶
The rest of the documentation details each of the object methods. Internal methods are usually preceded with a "_".
next_assembly¶
Title : next_assembly Usage : my $scaffold = $asmio->next_assembly(); Function: return the next assembly in the tasm-formatted stream Returns : Bio::Assembly::Scaffold object Args : none
next_contig¶
Title : next_contig Usage : my $contig = $asmio->next_contig(); Function: return the next contig or singlet TIGR-formatted stream Returns : Bio::Assembly::Contig or Bio::Assembly::Singlet Args : none
_qual_hex2dec¶
Title : _qual_hex2dec Usage : my dec_quality = $self->_qual_hex2dec($hex_quality); Function: convert an hexadecimal quality score into a decimal quality score Returns : string Args : string
_qual_dec2hex¶
Title : _qual_dec2hex Usage : my hex_quality = $self->_qual_dec2hex($dec_quality); Function: convert a decimal quality score into an hexadecimal quality score Returns : string Args : string
_store_contig¶
Title : _store_contig Usage : my $contigobj = $self->_store_contig(\%contiginfo, $contigobj); Function: store information of a contig belonging to a scaffold in the appropriate object Returns : Bio::Assembly::Contig object Args : hash, Bio::Assembly::Contig
_store_read¶
Title : _store_read Usage : my $readobj = $self->_store_read(\%readinfo, $contigobj); Function: store information of a read belonging to a contig in a contig object Returns : Bio::LocatableSeq Args : hash, Bio::Assembly::Contig
_store_singlet¶
Title : _store_singlet Usage : my $singletobj = $self->_store_read(\%readinfo, \%contiginfo); Function: store information of a singlet belonging to a scaffold in a singlet object Returns : Bio::Assembly::Singlet Args : hash, hash
write_assembly¶
Title : write_assembly Usage : $asmio->write_assembly($assembly) Function: Write the assembly object in TIGR Assembler compatible format. The contig IDs are sorted naturally if the Sort::Naturally module is present, or lexically otherwise. Internally, write_assembly use the write_contig, write_footer and write_header methods. Use these methods if you want more control on the writing process. Returns : 1 on success, 0 for error Args : A Bio::Assembly::Scaffold object 1 to write singlets in the assembly file, 0 otherwise
write_contig¶
Title : write_contig Usage : $asmio->write_contig($contig) Function: Write a contig or singlet object in TIGR compatible format. Quality scores are automatically generated if the contig does not contain any Returns : 1 on success, 0 for error Args : A Bio::Assembly::Contig or Singlet object
write_header¶
Title : write_header Usage : $asmio->write_header($assembly) Function: In the TIGR Asseformat assembly driver, this does nothing. The method is present for compatibility with other assembly drivers that need to write a file header. Returns : 1 on success, 0 for error Args : A Bio::Assembly::Scaffold object
write_footer¶
Title : write_footer Usage : $asmio->write_footer($assembly) Function: Write TIGR footer, i.e. do nothing except making sure that the file does not end with a '|'. Returns : 1 on success, 0 for error Args : A Bio::Assembly::Scaffold object
_perc_N¶
Title : _perc_N Usage : my $perc_N = $asmio->_perc_N($sequence_string) Function: Calculate the percent of ambiguities in a sequence. M R W S Y K X N are regarded as ambiguities in an aligned read sequence by TIGR Assembler. In the case of a gapped contig consensus sequence, all lowercase symbols are ambiguities, i.e.: a c g t u m r w s y k x n. Returns : decimal number Args : string
_redundancy¶
Title : _redundancy Usage : my $ref = $asmio->_redundancy($contigobj) Function: Calculate the fold coverage (redundancy) of a contig consensus (average number of read base pairs covering the consensus) Returns : decimal number Args : Bio::Assembly::Contig
_ungap¶
Title : _ungap Usage : my $ungapped = $asmio->_ungap($gapped) Function: Remove the gaps from a sequence. Gaps are - in TIGR Assembler Returns : string Args : string
_date_time¶
Title : _date_time Usage : my $timepoint = $asmio->date_time Function: Get date and time (MM//DD/YY HH:MM:SS) Returns : string Args : none
_split_seq_name_and_db¶
Title : _split_seq_name_and_db Usage : my ($seqname, $db) = $asmio->_split_seq_name_and_db($id) Function: Extract seq_name and db from sequence id Returns : seq_name, db Args : id
_merge_seq_name_and_db¶
Title : _merge_seq_name_and_db Usage : my $id = $asmio->_merge_seq_name_and_db($seq_name, $db) Function: Construct id from seq_name and db Returns : id Args : seq_name, db
_coord¶
Title : _coord Usage : my $id = $asmio->__coord($readobj, $contigobj) Function: Get different coordinates for the read Returns : number, number, number, number, number Args : Bio::Assembly::Seq, Bio::Assembly::Contig
2018-10-27 | perl v5.26.2 |