File Coverage

Bio/Restriction/EnzymeCollection.pm

Criterion	Covered	Total	%
statement	74	86	86.0
branch	29	38	76.3
condition	7	9	77.7
subroutine	12	13	92.3
pod	8	8	100.0
total	130	154	84.4

line	stmt	bran	cond	sub	pod	time	code
1							#-------------------------------------------------------------------------------
2							#
3							# BioPerl module Bio::Restriction::EnzymeCollection
4							#
5							# Please direct questions and support issues to
6							#
7							# Cared for by Rob Edwards
8							#
9							# You may distribute this module under the same terms as perl itself
10							#-------------------------------------------------------------------------------
11
12							## POD Documentation:
13
14							=head1 NAME
15
16							Bio::Restriction::EnzymeCollection - Set of restriction endonucleases
17
18							=head1 SYNOPSIS
19
20							use Bio::Restriction::EnzymeCollection;
21
22							# Create a collection with the default enzymes.
23							my $default_collection = Bio::Restriction::EnzymeCollection->new();
24
25							# Or create a collection from a REBASE 'withrefm' file obtained from
26							# ftp://ftp.neb.com/pub/rebase/. (See Bio::Restriction::IO for more
27							# information.)
28							my $rebase = Bio::Restriction::IO->new(
29							-file => 'withrefm.610',
30							-format => 'withrefm' );
31							my $rebase_collection = $rebase->read();
32
33							# Or create an empty collection and set the enzymes later. See
34							# 'CUSTOM COLLECTIONS' below for more information.
35							my $empty_collection =
36							Bio::Restriction::EnzymeCollection->new( -empty => 1 );
37
38							# Get an array of Bio::Restriction::Enzyme objects from the collection.
39							my @enzymes = $default_collection->each_enzyme();
40
41							# Get a Bio::Restriction::Enzyme object for a particular enzyme by name.
42							my $enz = $default_collection->get_enzyme( 'EcoRI' );
43
44							# Get a Bio::Restriction::EnzymeCollection object containing the enzymes
45							# that have the equivalent of 6-bp recognition sequences.
46							my $six_cutters = $default_collection->cutters( 6 );
47
48							# Get a Bio::Restriction::EnzymeCollection object containing the enzymes
49							# that are rare cutters.
50							my $rare_cutters = $default_collection->cutters( -start => 6, -end => 8 );
51
52							# Get a Bio::Restriction::EnzymeCollection object that contains enzymes
53							# that generate blunt ends:
54							my $blunt_cutters = $default_collection->blunt_enzymes();
55
56							# See 'CUSTOM COLLECTIONS' below for an example of creating a
57							# Bio::Restriction::EnzymeCollection object with a specified subset of
58							# enzymes using methods provided by the Bio::RestrictionEnzyme class.
59
60							=head1 DESCRIPTION
61
62							Bio::Restriction::EnzymeCollection represents a collection of
63							restriction enzymes.
64
65							If you create a new collection directly rather than from a REBASE
66							file using L, it will be populated by a
67							default set of enzymes with site and cut information
68							only.
69
70							Use L to figure out which enzymes are
71							available and where they cut your sequence.
72
73							=head1 CUSTOM COLLECTIONS
74
75							Note that the underlying L objects have a rich
76							variety of methods that allow more complicated selections than the methods
77							that are defined by Bio::Restriction::EnzymeCollection.
78
79							For example, the way to create a custom collection of Type II enzymes
80							is as follows:
81
82							my $complete_collection =
83							Bio::Restriction::EnzymeCollection->new();
84							my $type_ii_collection =
85							Bio::Restriction::EnzymeCollection->new( -empty => 1 );
86							$type_ii_collection->enzymes(
87							grep { $_->type() eq 'II' } $complete_collection->each_enzyme() );
88
89							=head1 SEE ALSO
90
91							L - read in enzymes from REBASE files
92
93							L - figure out what enzymes cut a sequence
94
95							L - define a single restriction enzyme
96
97							=head1 FEEDBACK
98
99							=head2 Mailing Lists
100
101							User feedback is an integral part of the evolution of this and other
102							Bioperl modules. Send your comments and suggestions preferably to one
103							of the Bioperl mailing lists. Your participation is much appreciated.
104
105							bioperl-l@bioperl.org - General discussion
106							http://bioperl.org/wiki/Mailing_lists - About the mailing lists
107
108							=head2 Support
109
110							Please direct usage questions or support issues to the mailing list:
111
112							I
113
114							rather than to the module maintainer directly. Many experienced and
115							reponsive experts will be able look at the problem and quickly
116							address it. Please include a thorough description of the problem
117							with code and data examples if at all possible.
118
119							=head2 Reporting Bugs
120
121							Report bugs to the Bioperl bug tracking system to help us keep track
122							the bugs and their resolution. Bug reports can be submitted via the
123							web:
124
125							https://github.com/bioperl/bioperl-live/issues
126
127							=head1 AUTHOR
128
129							Rob Edwards, redwards@utmem.edu
130
131							=head1 CONTRIBUTORS
132
133							Heikki Lehvaslaiho, heikki-at-bioperl-dot-org
134
135							=head1 COPYRIGHT
136
137							Copyright (c) 2003 Rob Edwards.
138
139							Some of this work is Copyright (c) 1997-2002 Steve A. Chervitz. All
140							Rights Reserved.
141
142							This module is free software; you can redistribute it and/or modify it
143							under the same terms as Perl itself.
144
145							=head1 APPENDIX
146
147							Methods beginning with a leading underscore are considered private and
148							are intended for internal use by this module. They are not considered
149							part of the public interface and are described here for documentation
150							purposes only.
151
152							=cut
153
154
155							package Bio::Restriction::EnzymeCollection;
156	4			4		625	use strict;
	4					8
	4					89
157
158	4			4		817	use Bio::Restriction::Enzyme;
	4					5
	4					79
159	4			4		517	use Bio::Restriction::IO;
	4					7
	4					94
160
161	4			4		15	use Data::Dumper;
	4					4
	4					163
162
163	4			4		13	use base qw(Bio::Root::Root);
	4					5
	4					3000
164
165							=head2 new
166
167							Title : new
168							Function : Initializes the Restriction::EnzymeCollection object
169							Returns : The Restriction::EnzymeCollection object
170							Arguments : optional named parameter -empty
171
172							Set parameter -empty to true if you do NOT want the collection be
173							populated by the default set of prototype type II enzymes.
174
175							Alternatively, pass an array of enzymes to -enzymes parameter.
176
177							=cut
178
179							sub new {
180	30			30	1	56	my($class, @args) = @_;
181	30					100	my $self = $class->SUPER::new(@args);
182
183	30					107	my ($empty, $enzymes) =
184							$self->_rearrange([qw(
185							EMPTY
186							ENZYMES
187							)], @args);
188
189	30					69	$self->{'_all_enzymes'} = [];
190	30					47	$self->{'_enzymes'} = {};
191
192	30	100				96	return $self if $empty;
193
194
195	5	100				12	if ($enzymes) {
196							# as advertised in pod/maj
197	1	50				3	$self->throw( "Arg to -enzymes must be an arrayref to Bio::Restriction::Enzyme objects") unless ref($enzymes) eq 'ARRAY';
198	1					4	$self->enzymes(@$enzymes);
199	1					3	return $self;
200							}
201							else {
202							# the default set of enzymes
203	4					15	my $in = Bio::Restriction::IO->new(-verbose => $self->verbose);
204	4					11	return $in->read;
205							}
206							}
207
208							=head2 Manipulate the enzymes within the collection
209
210							=cut
211
212							=head2 enzymes
213
214							Title : enzyme
215							Function : add/get method for enzymes and enzyme collections
216							Returns : object itself
217							Arguments : array of Bio::Restriction::Enzyme and
218							Bio::Restriction::EnzymeCollection objects
219
220							=cut
221
222							sub enzymes {
223	10615			10615	1	10973	my ($self, @enzs)=@_;
224	10615					13599	foreach my $e (@enzs) {
225	15075	50				38155	if ( ref $e eq '') {
		100
		50
226	0					0	print "\|$e\|\n";
227							}
228							elsif ($e->isa('Bio::Restriction::EnzymeI')) {
229	15073					10583	push(@{$self->{'_all_enzymes'}},$e);
	15073					17238
230	15073					26009	$self->{'_enzymes'}->{$e->name} = $e;
231							}
232							elsif ($e->isa('Bio::Restriction::EnzymeCollection')) {
233	2					6	$self->enzymes($e->each_enzyme);
234							} else {
235	0					0	my $r = 1;
236	0					0	$self->warn("EnzymeCollection can not deal with ".
237							ref($e)." objects");
238							}
239							}
240	10615					57043	return $self;
241							}
242
243							#
244							# method to remove duplicates?
245							#
246
247							=head2 each_enzyme
248
249							Title : each_enzyme
250							Function : get an array of enzymes
251							Returns : array of Bio::Restriction::Enzyme objects
252							Arguments : -
253
254							=cut
255
256							sub each_enzyme {
257	35			35	1	45	my $self = shift;
258	35					35	return @{$self->{'_all_enzymes'}};
	35					2034
259							}
260
261							=head2 get_enzyme
262
263							Title : get_enzyme
264							Function : Gets a Bio::Restriction::Enzyme object for the enzyme name
265							Returns : A Bio::Restriction::Enzyme object or undef
266							Arguments : An enzyme name that is in the collection
267
268							=cut
269
270							sub get_enzyme {
271	21			21	1	1821	my ($self, $name)=@_;
272	21					85	return $self->{'_enzymes'}->{$name};
273							}
274
275
276							=head2 available_list
277
278							Title : available_list
279							Function : Gets a list of all the enzymes that we know about
280							Returns : A reference to an array with all the enzyme names
281							that we have defined or 0 if none are defined
282							Arguments : Nothing
283							Comments : Note, I maintain this for backwards compatibility,
284							but I don't like the name as it is very ambiguous
285
286							=cut
287
288							sub available_list {
289	1			1	1	2	my ($self, $size)=@_;
290	1					2	my @keys = sort keys %{$self->{'_enzymes'}};
	1					331
291	1					73	return @keys;
292							}
293
294							=head2 longest_cutter
295
296							Title : longest_cutter
297							Function : Gets the enzyme with the longest recognition site
298							Returns : A Bio::Restriction::Enzyme object
299							Arguments : Nothing
300							Comments : Note, this is used by Bio::Restriction::Analysis
301							to figure out what to do with circular sequences
302
303							=cut
304
305							sub longest_cutter {
306	0			0	1	0	my ($self)=@_;
307	0					0	my $longest=0; my $longest_enz='.';
	0					0
308	0					0	foreach my $enz ($self->each_enzyme) {
309	0					0	my $len=$enz->recognition_length;
310	0	0				0	if ($len > $longest) {$longest=$len; $longest_enz=$enz}
	0					0
	0					0
311							}
312	0					0	return $longest_enz;
313							}
314
315							=head2 Filter enzymes
316
317							=cut
318
319							=head2 blunt_enzymes
320
321							Title : blunt_enzymes
322							Function : Gets a list of all the enzymes that are blunt cutters
323							Returns : A reference to an array with all the enzyme names that
324							are blunt cutters or 0 if none are defined
325							Arguments : Nothing
326							Comments :
327
328							This is an example of the kind of filtering better done by the scripts
329							using the rich collection of methods in Bio::Restriction::Enzyme.
330
331							=cut
332
333							sub blunt_enzymes {
334	1			1	1	2	my $self=shift;
335	1					5	my $bs = Bio::Restriction::EnzymeCollection->new(-empty => 1);
336	1					3	return $bs->enzymes( grep { $_->overhang eq 'blunt' } $self->each_enzyme );
	532					571
337							}
338
339
340							=head2 cutters
341
342							Title : cutters
343							Function : Gets a list of all the enzymes that recognize a
344							certain size, e.g. 6-cutters
345							Usage : $cutters = $collection->cutters(6);
346							Returns : A reference to an array with all the enzyme names
347							that are x cutters or 0 if none are defined
348							Arguments : A positive number for the size of cutters to return
349							OR
350							A range: (-start => 6, -end => 8,
351							-inclusive => 1, -exclusive = 0 )
352
353							The default for a range is 'inclusive'
354
355
356							=cut
357
358							sub cutters {
359	5			5	1	10	my ($self) = shift;
360
361	5	50				13	return unless @_; # no argument
362
363	5	100				10	if (scalar @_ == 1 ) {
364	2					3	my $size = shift;
365	2					2	my @sizes;
366	2	100				6	(ref $size eq 'ARRAY') ? push @sizes, @{$size} : push @sizes, $size;
	1					3
367	2					8	my $bs = Bio::Restriction::EnzymeCollection->new(-empty => 1);
368	2					4	for my $size (@sizes) {
369	3	50				15	$self->throw("Need a positive number [$size]")
370							unless $size =~ /[+]?[\d\.]+/;
371	3					45	foreach my $e ($self->each_enzyme) {
372							##print $e->name, ": ", $e->cutter, "\n" if $e->cutter == $size;
373	1596	100				1702	$bs->enzymes($e) if $e->cutter == $size;
374							}
375							}
376	2					11	return $bs;
377
378							} else { # named arguments
379
380	3					14	my ($start, $end, $inclusive, $exclusive ) =
381							$self->_rearrange([qw(
382							START
383							END
384							INCLUSIVE
385							EXCLUSIVE
386							)], @_);
387
388	3	50				17	$self->throw("Start needs a positive number [$start]")
389							unless $start =~ /[+]?[\d\.]+/;
390	3	50				8	$self->throw("End needs a positive number [$end]")
391							unless $end =~ /[+]?[\d\.]+/;
392
393	3					3	my $limits;
394	3	100	66			12	$inclusive = 1 if $inclusive or not $exclusive;
395	3	100				7	$inclusive = 0 if $exclusive;
396
397	3					9	my $bs = Bio::Restriction::EnzymeCollection->new(-empty => 1);
398	3	100				6	if ($inclusive) {
399	2					6	foreach my $e ($self->each_enzyme) {
400	1064	100	66			1296	$bs->enzymes($e) if $e->cutter >= $start and $e->cutter <= $end;
401							}
402							} else {
403	1					4	foreach my $e ($self->each_enzyme) {
404	532	100	100			580	$bs->enzymes($e) if $e->cutter > $start and $e->cutter < $end;
405							}
406							}
407	3					57	return $bs;
408							}
409							}
410
411
412							1;