1 # $Id: GenePosition.pm,v 1.19 2006/09/20 10:20:01 sendu Exp $
3 # BioPerl module for Bio::Map::GenePosition
5 # Please direct questions and support issues to <bioperl-l@bioperl.org>
7 # Cared for by Sendu Bala <bix@sendu.me.uk>
11 # You may distribute this module under the same terms as perl itself
13 # POD documentation - main docs before the code
17 Bio::Map::GenePosition - A typed position, suitable for modelling the various
22 use Bio::Map::GenePosition;
23 use Bio::Map::GeneMap;
25 # say that the first transcript of a particular gene on a particular map
26 # (species) is 1000bp long
27 my $map = Bio::Map:GeneMap->get(-universal_name => 'BRCA2',
29 my $gene = $map->gene;
30 Bio::Map::GenePosition->new(-map => $map,
34 -type => 'transcript');
36 # say that the coding region of the gene starts 30bp into the first
38 Bio::Map::GenePosition->new(-map => $map,
44 # A GenePosition isa PositionWithSequence, so can have sequence associated
46 my $exon = Bio::Map::GenePosition->new(-map => $map,
50 -seq => 'ATGGGGTGGG');
51 my $length = $exon->length; # $length is 10
55 Define where various sub-regions (transcripts, exons, introns etc.) of a gene
56 are. Do this so that you can then go onto to model other mappable elements as
57 having positions 20bp upstream of transcript 2, or 10bp into intron 3 etc., all
58 without having to know the absolute position of anything.
60 See Bio::Map::GeneRelative and t/Map/Map.t for more example usage.
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75 Please direct usage questions or support issues to the mailing list:
77 I<bioperl-l@bioperl.org>
79 rather than to the module maintainer directly. Many experienced and
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81 address it. Please include a thorough description of the problem
82 with code and data examples if at all possible.
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87 of the bugs and their resolution. Bug reports can be submitted via the
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92 =head1 AUTHOR - Sendu Bala
98 The rest of the documentation details each of the object methods.
99 Internal methods are usually preceded with a _
103 # Let the code begin...
105 package Bio
::Map
::GenePosition
;
108 use Bio
::Map
::GeneRelative
;
110 use base
qw(Bio::Map::PositionWithSequence);
115 Usage : my $obj = Bio::Map::GenePosition->new();
116 Function: Builds a new Bio::Map::GenePosition object
117 Returns : Bio::Map::GenePosition
118 Args : -map => Bio::Map::GeneMap object
119 -element => Bio::Map::Gene object
120 -relative => Bio::Map::GeneRelative object
121 -type => 'transcript|coding|exon|intron', REQUIRED
122 -seq => string, length of this string will set the length
123 of this position's range
125 * If this position has no range, or if a single value can describe
127 -value => scalar : something that describes the single
128 point position or range of this
129 Position, most likely an int
131 * Or if this position has a range, at least two of *
132 -start => int : value of the start co-ordinate
133 -end => int : value of the end co-ordinate
134 -length => int : length of the range
139 my ($class, @args) = @_;
140 my $self = $class->SUPER::new
(@args);
142 my ($type) = $self->_rearrange([qw( TYPE )], @args);
143 $type || $self->throw("type must be supplied");
146 $self->{_relative_not_implicit
} = 1;
154 Usage : my $map = $position->map();
155 $position->map($map);
156 Function: Get/set the map the position is in.
157 Returns : L<Bio::Map::MapI>
159 new L<Bio::Map::MapI> to set
164 my ($self, $map) = @_;
166 $map->isa('Bio::Map::GeneMap') || $self->throw("This is [$map], not a Bio::Map::GeneMap");
168 return $self->SUPER::map($map);
174 Usage : my $element = $position->element();
175 $position->element($element);
176 Function: Get/set the element the position is for.
177 Returns : L<Bio::Map::MappableI>
179 new L<Bio::Map::MappableI> to set
184 my ($self, $element) = @_;
186 $element->isa('Bio::Map::Gene') || $self->throw("This is [$element], not a Bio::Map::Gene");
188 return $self->SUPER::element
($element);
194 Usage : my $type = $position->type();
195 $position->type($type);
196 Function: Get/set the type of this position.
198 Args : none to get, OR
199 string transcript|coding|exon|intron to set
207 if ($type !~ /transcript|coding|exon|intron/i) {
208 $self->throw("type must be supplied and be one of 'transcript', 'coding', 'exon', 'intron'");
210 $self->{type
} = $type;
212 return $self->{type
};
218 Usage : my $relative = $position->relative();
219 $position->relative($relative);
220 Function: Get/set the thing this Position's coordinates (numerical(), start(),
221 end()) are relative to, as described by a RelativeI object.
222 Returns : Bio::Map::GeneRelative. The default GeneRelative returned has a
223 meaning that depends on the type() of GenePosition this is:
224 'transcript' : "relative to the start of the gene on the
226 'coding|exon|intron' : "relative to the start of the default
227 transcript of the gene on the Position's map"
228 Args : none to get, OR
229 Bio::Map::GeneRelative to set
234 my ($self, $relative) = @_;
236 $self->throw("Must supply an object") unless ref($relative);
237 $self->throw("This is [$relative], not a Bio::Map::GeneRelative") unless $relative->isa('Bio::Map::GeneRelative');
238 $self->{_relative
} = $relative;
240 return $self->{_relative
} || $self->_default_relative;
246 Usage : my $string = $position->seq();
247 Function: Get/set the sequence as a string of letters. If no sequence is
248 manually set by you, the position's map will be asked for the
249 sequence, and if available, that will be returned.
251 Args : Optionally on set the new value (a string). An optional second
252 argument presets the alphabet (otherwise it will be guessed).
257 # $shortcut is internal-use only by GeneMap
258 my ($self, $str, $alpha, $shortcut) = @_;
260 my $seq = $self->SUPER::seq
($str, $alpha);
263 $self->length(CORE
::length($seq));
266 elsif (! $shortcut && defined(my $map = $self->map) && ! defined $self->{_getting_seq
}) {
267 $self->{_getting_seq
} = 1;
268 $seq = $map->subseq($self);
269 delete $self->{_getting_seq
};
275 # return a Relative that is suitable for the type
276 sub _default_relative
{
278 my $type = $self->type;
279 if ($type eq 'transcript') {
280 return Bio
::Map
::GeneRelative
->new(-gene
=> 0, -description
=> 'start of gene');
283 return Bio
::Map
::GeneRelative
->new(-transcript
=> 0, -description
=> 'start of default transcript');