NAME
Bio::Tools::Alignment::Consed - A module to work with objects from consed .ace files
SYNOPSIS
# a report for sequencing stuff
my $o_consed = new Bio::Tools::Alignment::Consed(
-acefile => "/path/to/an/acefile.ace.1",
-verbose => 1);
my $foo = $o_consed->set_reverse_designator("r");
my $bar = $o_consed->set_forward_designator("f");
# get the contig numbers
my @keys = $o_consed->get_contigs();
# construct the doublets
my $setter_doublets = $o_consed->choose_doublets();
# get the doublets
my @doublets = $o_consed->get_doublets();
DESCRIPTION
Bio::Tools::Alignment::Consed provides methods and objects to deal with the output from the Consed package of programs. Specifically, Bio::Tools::Alignment::Consed takes in the name of in .ace file and provides objects for the results.
A word about doublets: This module was written to accomodate a large EST sequencing operation. In this case, EST's were sequenced from the 3' and from the 5' end of the EST. The objective was to find a consensus sequence for these two reads. Thus, a contig of two is what we wanted, and this contig should consist of the forward and reverse reads of a getn clone. For example, for a forward designator of "F" and a reverse designator of "R", if the two reads chad1F and chad1R were in a single contig (for example Contig 5) it will be determined that the consensus sequence for Contig 5 will be the sequence for clone chad1.
Doublets are good!
This module parses .ace and related files. A detailed list of methods can be found at the end of this document.
I wrote a detailed rationale for design that may explain the reasons why some things were done the way they were done. That document is beyond the scope of this pod and can probably be found in the directory from which this module was 'made' or at http://www.dieselwurks.com/bioinformatics/consedpm_documentation.pdf
Note that the pod in that document might be old but the original rationale still stands.
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 one of the Bioperl mailing lists. Your participation is much appreciated.
bioperl-l@bioperl.org - General discussion
http://bio.perl.org/MailList.html - About the mailing lists
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
http://bugzilla.bioperl.org/
AUTHOR - Chad Matsalla
chad@dieselwurks.com
APPENDIX
The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _
new()
Title : new(-acefile => $path_to_some_acefile, -verbose => "1")
Usage : $o_consed = Bio::Tools::Alignment::Consed->
new(-acefile => $path_to_some_acefile, -verbose => "1");
Function: Construct the Bio::Tools::Alignment::Consed object. Sets
verbosity for the following procedures, if necessary:
1. Construct a new Bio::Tools::Alignment::Trim object, to
handle quality trimming 2. Read in the acefile and parse it
Returns : A reference to a Bio::Tools::Alignment::Consed object.
Args : A hash. (-acefile) is the filename of an acefile. If a full path
is not specified "./" is prepended to the filename and used from
instantiation until destruction. If you want
Bio::Tools::Alignment::Consed to be noisy during parsing of
the acefile, specify some value for (-verbose).
verbose()
Title : verbose()
Usage : $o_consed->verbose(1);
Function: Set the verbosity level for debugging messages. On instantiation
of the Bio::Tools::Alignment::Consed object the verbosity level
is set to 0 (quiet).
Returns : 1 or 0.
Args : The verbosity levels are:
0 - quiet
1 - noisy
2 - noisier
3 - annoyingly noisy
Notes : This method for setting verbosity has largely been superseeded by
a sub-by-sub way, where for every sub you can provide a (-verbose)
switch. I am doing converting this bit-by-bit so do not be surprised
if some subs do not honour this.
get_filename()
Title : get_filename()
Usage : $o_consed->get_filename();
Function: Returns the name of the acefile being used by the
Bio::Tools::Alignment::Consed object.
Returns : A scalar containing the name of a file.
Args : None.
count_sequences_with_grep()
Title : count_sequences_with_grep()
Usage : $o_consed->count_sequences_with_grep();
Function: Use /bin/grep to scan through the files in the ace project dir
and count sequences in those files. I used this method in the
development of this module to verify that I was getting all of the
sequences. It works, but it is (I think) unix-like platform
dependent.
Returns : A scalar containing the number of sequences in the ace project
directory.
Args : None.
Notes : If you are on a non-UNIX platform, you really do not have to use
this. It is more of a debugging routine designed to address very
specific problems.
This method was reimplemented to be platform independent with a
pure perl implementation. The above note can be ignored.
get_path()
Title : get_path()
Usage : $o_consed->get_path();
Function: Returns the path to the acefile this object is working with.
Returns : Scalar. The path to the working acefile.
Args : None.
get_contigs()
Title : get_contigs()
Usage : $o_consed->get_contigs();
Function: Return the keys to the Bio::Tools::Alignment::Consed object.
Returns : An array containing the keynames in the
Bio::Tools::Alignment::Consed object.
Args : None.
Notes : This would normally be used to get the keynames for some sort of
iterator. These keys are worthless in general day-to-day use because
in the Consed acefile they are simply Contig1, Contig2, ...
get_class($contig_keyname)
Title : get_class($contig_keyname)
Usage : $o_consed->get_class($contig_keyname);
Function: Return the class name for this contig
Returns : A scalar representing the class of this contig.
Args : None.
Notes :
get_quality_array($contig_keyname)
Title : get_quality_array($contig_keyname)
Usage : $o_consed->get_quality_array($contig_keyname);
Function: Returns the quality for the consensus sequence for the given
contig as an array. See get_quality_scalar to get this as a scalar.
Returns : An array containing the quality for the consensus sequence with
the given keyname.
Args : The keyname of a contig. Note: This is a keyname. The key would
normally come from get_contigs.
Notes : Returns an array, not a reference. Is this a bug? <thinking> No.
Well, maybe.
Why was this developed like this? I was using FreezeThaw for object
persistence, and when it froze out these arrays it took a long time
to thaw it. Much better as a scalar.
get_quality_scalar($contig_keyname))
Title : get_quality_scalar($contig_keyname)
Usage : $o_consed->get_quality_scalar($contig_keyname);
Function: Returns the quality for the consensus sequence for the given
contig as a scalar. See get_quality_array to get this as an array.
Returns : An scalar containing the quality for the consensus sequence with
the given keyname.
Args : The keyname of a contig. Note this is a _keyname_. The key would
normally come from get_contigs.
Notes : Why was this developed like this? I was using FreezeThaw for object
persistence, and when it froze out these arrays it took a coon's age
to thaw it. Much better as a scalar.
freeze_hash()
Title : freeze_hash()
Usage : $o_consed->freeze_hash();
Function: Use Ilya's FreezeThaw module to create a persistent data
object for this Bio::Tools::Alignment::Consed data
structure. In the case of AAFC, we use
Bio::Tools::Alignment::Consed to pre-process bunches of
sequences, freeze the structures, and send in a harvesting
robot later to do database stuff.
Returns : 0 or 1;
Args : None.
Notes : This procedure was removed so Consed.pm won't require
FreezeThaw.
get_members($contig_keyname)
Title : get_members($contig_keyname)
Usage : $o_consed->get_members($contig_keyname);
Function: Return the _names_ of the reads in this contig.
Returns : An array containing the names of the reads in this contig.
Args : The keyname of a contig. Note this is a keyname. The keyname
would normally come from get_contigs.
See get_contigs()
get_members_by_name($some_arbitrary_name)
Title : get_members_by_name($some_arbitrary_name)
Usage : $o_consed->get_members_by_name($some_arbitrary_name);
Function: Return the names of the reads in a contig. This is the name given
to $contig{key} based on what is in the contig. This is different
from the keys retrieved through get_contigs().
Returns : An array containing the names of the reads in the contig with this
name.
Args : The name of a contig. Not a key, but a name.
Notes : Highly inefficient. use some other method if possible.
See get_contigs()
get_contig_number_by_name($some_arbitrary_name)
Title : get_contig_number_by_name($some_arbitrary_name)
Usage : $o_consed->get_contig_number_by_name($some_arbitrary_name);
Function: Return the names of the reads in a contig. This is the name given
to $contig{key} based on what is in the contig. This is different
from the keys retrieved through get_contigs().
Returns : An array containing the names of the reads in the contig with this
name.
Args : The name of a contig. Not a key, but a name.
See get_contigs()
get_sequence($contig_keyname)
Title : get_sequence($contig_keyname)
Usage : $o_consed->get_sequence($contig_keyname);
Function: Returns the consensus sequence for a given contig.
Returns : A scalar containing a sequence.
Args : The keyname of a contig. Note this is a key. The key would
normally come from get_contigs.
See get_contigs()
set_final_sequence($some_sequence)
Title : set_final_sequence($name,$some_sequence)
Usage : $o_consed->set_final_sequence($name,$some_sequence);
Function: Provides a manual way to set the sequence for a given key in the
contig hash. Rarely used.
Returns : 0 or 1;
Args : The name (not the keyname) of a contig and an arbitrary string.
Notes : A method with a questionable and somewhat mysterious origin. May
raise the dead or something like that.
_read_file()
Title : _read_file();
Usage : _read_file();
Function: An internal subroutine used to read in an acefile and parse it
into a Bio::Tools::Alignment::Consed object.
Returns : 0 or 1.
Args : Nothing.
Notes : This routine creates and saves the filhandle for reading the
files in {fh}
set_reverse_designator($some_string)
Title : set_reverse_designator($some_string)
Usage : $o_consed->set_reverse_designator($some_string);
Function: Set the designator for the reverse read of contigs in this
Bio::Tools::Alignment::Consed object. Used to determine if
contigs containing two reads can be named.
Returns : The value of $o_consed->{reverse_designator} so you can check
to see that it was set properly.
Args : An arbitrary string.
Notes : May be useful only to me. <shrug>
set_forward_designator($some_string)
Title : set_forward_designator($some_string)
Usage : $o_consed->set_forward_designator($some_string);
Function: Set the designator for the forward read of contigs in this
Bio::Tools::Alignment::Consed object. Used to determine if
contigs containing two reads can be named.
Returns : The value of $o_consed->{forward_designator} so you can check
to see that it was set properly.
Args : An arbitrary string.
Notes : May be useful only to me. <shrug>
set_designator_ignore_case("yes")
Title : set_designator_ignore_case("yes")
Usage : $o_consed->set_designator_ignore_case("yes");
Function: Deprecated.
Returns : Deprecated.
Args : Deprecated.
Notes : Deprecated. Really. Trust me.
set_trim_points_singlets_and_singletons()
Title : set_trim_points_singlets_and_singletons()
Usage : $o_consed->set_trim_points_singlets_and_singletons();
Function: Set the trim points for singlets and singletons based on
quality. Uses the Bio::Tools::Alignment::Trim object. Use
at your own risk because the Bio::Tools::Alignment::Trim
object was designed specifically for me and is mysterious
in its ways. Every time somebody other then me uses it a
swarm of locusts decends on a small Central American
village so do not say you weren't warned.
Returns : Nothing.
Args : None.
Notes : Working on exceptions and warnings here.
See Bio::Tools::Alignment::Trim for more information
set_trim_points_doublets()
Title : set_trim_points_doublets()
Usage : $o_consed->set_trim_points_doublets();
Function: Set the trim points for doublets based on quality. Uses the
Bio::Tools::Alignment::Trim object. Use at your own risk because
the Bio::Tools::Alignment::Trim object was designed specifically
for me and is mysterious in its ways. Every time somebody other
then me uses it you risk a biblical plague being loosed on your
city.
Returns : Nothing.
Args : None.
Notes : Working on exceptions here.
See Bio::Tools::Alignment::Trim for more information
get_trimmed_sequence_by_name($name)
Title : get_trimmed_sequence_by_name($name)
Usage : $o_consed->get_trimmed_sequence_by_name($name);
Function: Returns the trimmed_sequence of a contig with {name} eq $name.
Returns : A scalar- the trimmed sequence.
Args : The {name} of a contig.
Notes :
set_dash_present_in_sequence_name("yes")
Title : set_dash_present_in_sequence_name("yes")
Usage : $o_consed->set_dash_present_in_sequence_name("yes");
Function: Deprecated. Part of an uncompleted thought. ("Oooh! Shiny!")
Returns : Nothing.
Args : "yes" to set {dash_present_in_sequence_name} to 1
Notes :
set_doublets()
Title : set_doublets()
Usage : $o_consed->set_doublets();
Function: Find pairs that have similar names and mark them as doublets
and set the {name}.
Returns : 0 or 1.
Args : None.
Notes : A complicated subroutine that iterates over the
Bio::Tools::Alignment::Consed looking for contigs of 2. If the
forward and reverse designator are removed from each of the reads
in {'member_array'} and the remaining reads are the same, {name}
is set to that name and the contig's class is set as "doublet".
If any of those cases fail the contig is marked as a "pair".
set_singlets
Title : set_singlets
Usage : $o_consed->set_singlets();
Function: Read in a singlets file and place them into the
Bio::Tools::Alignment::Consed object.
Returns : Nothing.
Args : A scalar to turn on verbose parsing of the singlets file.
Notes :
get_singlets()
Title : get_singlets()
Usage : $o_consed->get_singlets();
Function: Return the keynames of the singlets.
Returns : An array containing the keynames of all
Bio::Tools::Alignment::Consed sequences in the class "singlet".
Args : None.
Notes :
set_quality_by_name($name,$quality)
Title : set_quality_by_name($name,$quality)
Usage : $o_consed->set_quality_by_name($name,$quality);
Function: Deprecated. Make the contig with {name} have {'quality'} $quality.
Probably used for testing.
Returns : Nothing.
Args : The name of a contig and a scalar for its quality.
Notes : Deprecated.
set_singlet_quality()
Title : set_singlet_quality()
Usage : $o_consed->set_singlet_quality();
Function: For each singlet, go to the appropriate file in phd_dir and read
in the phred quality for that read and place it into {'quality'}
Returns : 0 or 1.
Args : None.
Notes : This is the next subroutine that will receive substantial revision
in the next little while. It really should eval the creation of
Bio::Tools::Alignment::Phred objects and go from there.
set_contig_quality()
Title : set_contig_quality()
Usage : $o_consed->set_contig_quality();
Function: Deprecated.
Returns : Deprecated.
Args : Deprecated.
Notes : Deprecated. Really. Trust me.
get_multiplets()
Title : get_multiplets()
Usage : $o_consed->get_multiplets();
Function: Return the keynames of the multiplets.
Returns : Returns an array containing the keynames of all
Bio::Tools::Alignment::Consed sequences in the class "multiplet".
Args : None.
Notes :
get_all_members()
Title : get_all_members()
Usage : @all_members = $o_consed->get_all_members();
Function: Return a list of all of the read names in the
Bio::Tools::Alignment::Consed object.
Returns : An array containing all of the elements in all of the
{'member_array'}s.
Args : None.
Notes :
sum_lets($total_only)
Title : sum_lets($total_only)
Usage : $statistics = $o_consed->sum_lets($total_only);
Function: Provide numbers for how many sequences were accounted for in the
Bio::Tools::Alignment::Consed object.
Returns : If a scalar is present, returns the total number of
sequences accounted for in all classes. If no scalar passed
then returns a string that looks like this:
Singt/singn/doub/pair/mult/total : 2,0,1(2),0(0),0(0),4
This example means the following: There were 1 singlets.
There were 0 singletons. There were 1 doublets for a total
of 2 sequences in this class. There were 0 pairs for a
total of 0 sequences in this class. There were 0
multiplets for a total of 0 sequences in this class. There
were a total of 4 sequences accounted for in the
Bio::Tools::Alignment::Consed object.
Args : A scalar is optional to change the way the numbers are returned.
Notes:
write_stats()
Title : write_stats()
Usage : $o_consed->write_stats();
Function: Write a file called "statistics" containing numbers similar to
those provided in sum_lets().
Returns : Nothing. Write a file in $o_consed->{path} containing something
like this:
0,0,50(100),0(0),0(0),100
Where the numbers provided are in the format described in the
documentation for sum_lets().
Args : None.
Notes : This might break platform independence, I do not know.
See sum_lets()
get_singletons()
Title : get_singletons()
Usage : @singletons = $o_consed->get_singletons();
Function: Return the keynames of the singletons.
Returns : Returns an array containing the keynames of all
Bio::Tools::Alignment::Consed sequences in the class "singleton".
Args : None.
Notes :
get_pairs()
Title : get_pairs()
Usage : @pairs = $o_consed->get_pairs();
Function: Return the keynames of the pairs.
Returns : Returns an array containing the keynames of all
Bio::Tools::Alignment::Consed sequences in the class "pair".
Args : None.
Notes :
get_name($contig_keyname)
Title : get_name($contig_keyname)
Usage : $name = $o_consed->get_name($contig_keyname);
Function: Return the {name} for $contig_keyname.
Returns : A string. ({name})
Args : A contig keyname.
Notes :
_get_contig_name(\@array_containing_reads)
Title : _get_contig_name(\@array_containing_reads)
Usage : $o_consed->_get_contig_name(\@array_containing_reads);
Function: The logic for the set_doublets subroutine.
Returns : The name for this contig.
Args : A reference to an array containing read names.
Notes : Depends on reverse_designator. Be sure this is set the way you
intend.
get_doublets()
Title : get_doublets()
Usage : @doublets = $o_consed->get_doublets();
Function: Return the keynames of the doublets.
Returns : Returns an array containing the keynames of all
Bio::Tools::Alignment::Consed sequences in the class "doublet".
Args : None.
Notes :
dump_hash()
Title : dump_hash()
Usage : $o_consed->dump_hash();
Function: Use dumpvar.pl to dump out the Bio::Tools::Alignment::Consed
object to STDOUT.
Returns : Nothing.
Args : None.
Notes : I used this a lot in debugging.
dump_hash_compact()
Title : dump_hash_compact()
Usage : $o_consed->dump_hash_compact();
Function: Dump out the Bio::Tools::Alignment::Consed object in a compact way.
Returns : Nothing.
Args : Nothing.
Notes : Cleaner then dumpValue(), dumpHash(). I used this a lot in
debugging.
get_phreds()
Title : get_phreds()
Usage : @phreds = $o_consed->get_phreds();
Function: For each doublet in the Bio::Tools::Alignment::Consed hash, go
and get the phreds for the top and bottom reads. Place them into
{top_phreds} and {bottom_phreds}.
Returns : Nothing.
Args : Nothing.
Notes : Requires parse_phd() and reverse_and_complement(). I realize that
it would be much more elegant to pull qualities as required but there
were certain "features" in the acefile that required a bit more
detailed work be done to get the qualities for certain parts of the
consensus sequence. In order to make _sure_ that this was done
properly I wrote things to do all steps and then I used dump_hash()
and checked each one to ensure expected bahavior. I have never changed
this, so there you are.
parse_phd($read_name)
Title : parse_phd($read_name)
Usage : $o_consed->parse_phd($read_name);
Function: Suck in the contents of a .phd file.
Returns : A reference to an array containing the quality values for the read.
Args : The name of a read.
Notes : This is a significantly weak subroutine because it was always
intended that these functions, along with the functions provided by
get_phreds() be put into the Bio::SeqIO:phd module. This is done
now but the Bio::Tools::Alignment::Consed module has not be
rewritten to reflect this change.
See Bio::SeqIO::phd for more information.
reverse_and_complement(\@source)
Title : reverse_and_complement(\@source)
Usage : $reference_to_array = $o_consed->reverse_and_complement(\@source);
Function: A stub for the recursive routine reverse_recurse().
Returns : A reference to a reversed and complemented array of phred data.
Args : A reference to an array of phred data.
Notes :
reverse_recurse($r_source,$r_destination)
Title : reverse_recurse(\@source,\@destination)
Usage : $o_consed->reverse_recurse(\@source,\@destination);
Function: A recursive routine to reverse and complement an array of phred
data.
Returns : A reference to an array containing reversed phred data.
Args : A reference to a source array and a reverence to a destination
array.
Notes : Recursion is kewl, but this sub should likely be _reverse_recurse.
show_missing_sequence()
Title : show_missing_sequence();
Usage : $o_consed->show_missing_sequence();
Function: Used by set_trim_points_doublets() to fill in quality values where
consed (phrap?) set them to 0 at the beginning and/or end of the
consensus sequences.
Returns : Nothing.
Args : None.
Notes : Acts on doublets only. Really very somewhat quite ugly. A
disgusting kludge. <insert pride here> It was written stepwise with
no real plan because it was not really evident why consed (phrap?)
was doing this.
SEE ALSO
perl(1).