NAME¶
Bio::DB::GFF::Segment -- Simple DNA segment object
SYNOPSIS¶
See Bio::DB::GFF.
DESCRIPTION¶
Bio::DB::GFF::Segment provides the basic representation of a range of DNA
contained in a GFF database. It is the base class from which the
Bio::DB::GFF::RelSegment and Bio::DB::GFF::Feature classes are derived.
Generally, you will not create or manipulate Bio::DB::GFF::Segment objects
directly, but use those that are returned by the Bio::DB::GFF module.
API¶
The remainder of this document describes the API for Bio::DB::GFF::Segment.
new¶
Title : new
Usage : $s = Bio::DB::GFF::Segment->new(@args)
Function: create a new segment
Returns : a new Bio::DB::GFF::Segment object
Args : see below
Status : Public
This method creates a new Bio::DB::GFF::Segment object. Generally this is called
automatically by the Bio::DB::GFF module and derivatives.
There are five positional arguments:
$factory a Bio::DB::GFF::Adaptor to use for database access
$sourceseq ID of the source sequence
$sourceclass class of the source sequence
$start start of the desired segment relative to source sequence
$stop stop of the desired segment relative to source sequence
factory¶
Title : factory
Usage : $s->factory
Function: get the factory object
Returns : a Bio::DB::GFF::Adaptor
Args : none
Status : Public
This is a read-only accessor for the Bio::DB::GFF::Adaptor object used to create
the segment.
start¶
Title : start
Usage : $s->start
Function: start of segment
Returns : integer
Args : none
Status : Public
This is a read-only accessor for the start of the segment.
end¶
Title : end
Usage : $s->end
Function: end of segment
Returns : integer
Args : none
Status : Public
This is a read-only accessor for the end of the segment.
stop¶
Title : stop
Usage : $s->stop
Function: stop of segment
Returns : integer
Args : none
Status : Public
This is an alias for
end(), provided for AcePerl compatibility.
length¶
Title : length
Usage : $s->length
Function: length of segment
Returns : integer
Args : none
Status : Public
Returns the length of the segment. Always a positive number.
strand¶
Title : strand
Usage : $s->strand
Function: strand of segment
Returns : +1,0,-1
Args : none
Status : Public
Returns the strand on which the segment resides, either +1, 0 or -1.
low¶
Title : low
Usage : $s->low
Function: return lower coordinate
Returns : lower coordinate
Args : none
Status : Public
Returns the lower coordinate, either start or end.
high¶
Title : high
Usage : $s->high
Function: return higher coordinate
Returns : higher coordinate
Args : none
Status : Public
Returns the higher coordinate, either start or end.
sourceseq¶
Title : sourceseq
Usage : $s->sourceseq
Function: get the segment source
Returns : a string
Args : none
Status : Public
Returns the name of the source sequence for this segment.
class¶
Title : class
Usage : $s->class([$newclass])
Function: get the source sequence class
Returns : a string
Args : new class (optional)
Status : Public
Gets or sets the class for the source sequence for this segment.
subseq¶
Title : subseq
Usage : $s->subseq($start,$stop)
Function: generate a subsequence
Returns : a Bio::DB::GFF::Segment object
Args : start and end of subsequence
Status : Public
This method generates a new segment from the start and end positions given in
the arguments. If stop < start, then the strand is reversed.
seq¶
Title : seq
Usage : $s->seq
Function: get the sequence string for this segment
Returns : a Bio::PrimarySeq
Args : none
Status : Public
Returns the sequence for this segment as a Bio::PrimarySeq. (-) strand segments
are automatically reverse complemented
The method is called
dna() return the data as a simple sequence string.
dna¶
Title : dna
Usage : $s->dna
Function: get the DNA string for this segment
Returns : a string
Args : none
Status : Public
Returns the sequence for this segment as a simple string. (-) strand segments
are automatically reverse complemented
The method is also called
protein().
primary_seq¶
Title : primary_seq
Usage : $s->primary_seq
Function: returns a Bio::PrimarySeqI compatible object
Returns : a Bio::PrimarySeqI object
Args : none
Status : Public
This is for compatibility with BioPerl's separation of SeqI from PrimarySeqI. It
just returns itself.
type¶
Title : type
Usage : $s->type
Function: return the string "feature"
Returns : the string "feature"
Args : none
Status : Public
This is for future sequence ontology-compatibility and represents the default
type of a feature on the genome
equals¶
Title : equals
Usage : $s->equals($d)
Function: segment equality
Returns : true, if two segments are equal
Args : another segment
Status : Public
Returns true if the two segments have the same source sequence, start and stop.
asString¶
Title : asString
Usage : $s->asString
Function: human-readable string for segment
Returns : a string
Args : none
Status : Public
Returns a human-readable string representing this sequence. Format is:
sourceseq/start,stop
clone¶
Title : clone
Usage : $copy = $s->clone
Function: make a copy of this segment
Returns : a Bio::DB::GFF::Segment object
Args : none
Status : Public
This method creates a copy of the segment and returns it.
error¶
Title : error
Usage : $error = $s->error([$new_error])
Function: get or set the last error
Returns : a string
Args : an error message (optional)
Status : Public
In case of a fault, this method can be used to obtain the last error message.
Internally it is called to set the error message.
Relative Addressing Methods¶
The following methods are provided for compatibility with
Bio::DB::GFF::RelSegment, which provides relative addressing functions.
abs_start¶
Title : abs_start
Usage : $s->abs_start
Function: the absolute start of the segment
Returns : an integer
Args : none
Status : Public
This is an alias to
start(), and provided for API compatibility with
Bio::DB::GFF::RelSegment.
abs_end¶
Title : abs_end
Usage : $s->abs_end
Function: the absolute stop of the segment
Returns : an integer
Args : none
Status : Public
This is an alias to
stop(), and provided for API compatibility with
Bio::DB::GFF::RelSegment.
abs_strand¶
Title : abs_strand
Usage : $s->abs_strand
Function: the absolute strand of the segment
Returns : +1,0,-1
Args : none
Status : Public
This is an alias to
strand(), and provided for API compatibility with
Bio::DB::GFF::RelSegment.
abs_ref¶
Title : abs_ref
Usage : $s->abs_ref
Function: the reference sequence for this segment
Returns : a string
Args : none
Status : Public
This is an alias to
sourceseq(), and is here to provide API compatibility
with Bio::DB::GFF::RelSegment.
refseq¶
Title : refseq
Usage : $s->refseq
Function: get or set the reference sequence
Returns : a string
Args : none
Status : Public
Examine or change the reference sequence. This is an alias to
sourceseq(), provided here for API compatibility with
Bio::DB::GFF::RelSegment.
ref¶
Title : ref
Usage : $s->refseq
Function: get or set the reference sequence
Returns : a string
Args : none
Status : Public
An alias for
refseq()
seq_id¶
Title : seq_id
Usage : $ref = $s->seq_id
Function: get the reference sequence in a LocationI-compatible way
Returns : a string
Args : none
Status : Public
An alias for
refseq() but only allows reading.
truncated¶
Title : truncated
Usage : $truncated = $s->truncated
Function: Flag indicating that the segment was truncated during creation
Returns : A boolean flag
Args : none
Status : Public
This indicates that the sequence was truncated during creation. The returned
flag is undef if no truncation occured. If truncation did occur, the flag is
actually an array ref in which the first element is true if truncation
occurred on the left, and the second element occurred if truncation occurred
on the right.
Bio::RangeI Methods¶
The following Bio::RangeI methods are supported:
overlaps(),
contains(),
equals(),
intersection(),
union(),
overlap_extent()
Bio::SeqI implementation¶
primary_id¶
Title : primary_id
Usage : $unique_implementation_key = $obj->primary_id;
Function: Returns the unique id for this object in this
implementation. This allows implementations to manage their
own object ids in a way the implementaiton can control
clients can expect one id to map to one object.
For sequences with no accession number, this method should
return a stringified memory location.
Returns : A string
Args : None
Status : Virtual
display_name¶
Title : display_name
Usage : $id = $obj->display_name or $obj->display_name($newid);
Function: Gets or sets the display id, also known as the common name of
the Seq object.
The semantics of this is that it is the most likely string
to be used as an identifier of the sequence, and likely to
have "human" readability. The id is equivalent to the LOCUS
field of the GenBank/EMBL databanks and the ID field of the
Swissprot/sptrembl database. In fasta format, the >(\S+) is
presumed to be the id, though some people overload the id
to embed other information. Bioperl does not use any
embedded information in the ID field, and people are
encouraged to use other mechanisms (accession field for
example, or extending the sequence object) to solve this.
Notice that $seq->id() maps to this function, mainly for
legacy/convenience issues.
Returns : A string
Args : None or a new id
Note, this used to be called
display_id(), and this name is preserved for
backward compatibility. The default is to return the
seq_id().
accession_number¶
Title : accession_number
Usage : $unique_biological_key = $obj->accession_number;
Function: Returns the unique biological id for a sequence, commonly
called the accession_number. For sequences from established
databases, the implementors should try to use the correct
accession number. Notice that primary_id() provides the
unique id for the implemetation, allowing multiple objects
to have the same accession number in a particular implementation.
For sequences with no accession number, this method should return
"unknown".
Returns : A string
Args : None
alphabet¶
Title : alphabet
Usage : if( $obj->alphabet eq 'dna' ) { /Do Something/ }
Function: Returns the type of sequence being one of
'dna', 'rna' or 'protein'. This is case sensitive.
This is not called <type> because this would cause
upgrade problems from the 0.5 and earlier Seq objects.
Returns : a string either 'dna','rna','protein'. NB - the object must
make a call of the type - if there is no type specified it
has to guess.
Args : none
Status : Virtual
desc¶
Title : desc
Usage : $seqobj->desc($string) or $seqobj->desc()
Function: Sets or gets the description of the sequence
Example :
Returns : The description
Args : The description or none
species¶
Title : species
Usage : $species = $seq->species() or $seq->species($species)
Function: Gets or sets the species
Example :
Returns : Bio::Species object
Args : None or Bio::Species object
See Bio::Species for more information
annotation¶
Title : annotation
Usage : $ann = $seq->annotation or $seq->annotation($annotation)
Function: Gets or sets the annotation
Example :
Returns : Bio::Annotation object
Args : None or Bio::Annotation object
See Bio::Annotation for more information
is_circular¶
Title : is_circular
Usage : if( $obj->is_circular) { /Do Something/ }
Function: Returns true if the molecule is circular
Returns : Boolean value
Args : none
BUGS¶
Report them please.
SEE ALSO¶
bioperl
AUTHOR¶
Lincoln Stein <lstein@cshl.org>.
Copyright (c) 2001 Cold Spring Harbor Laboratory.
This library is free software; you can redistribute it and/or modify it under
the same terms as Perl itself.
CONTRIBUTORS¶
Jason Stajich <jason@bioperl.org>.