MRS::Client - A SOAP-based client of the MRS Retrieval server
version 0.600100
# 1. create a client that does all the work: use MRS::Client; # ...by default it connects to the MRS service at http://mrs.cmbi.ru.nl my $client = MRS::Client->new(); # ...or let the client talk to your own MRS servers my $client = MRS::Client->new ( search_url => 'http://localhost:18081/', blast_url => 'http://localhost:18082/',; clustal_url => 'http://localhost:18083/'); # ...or specify only a host, assuming the default ports are used my $client = MRS::Client->new ( host => 'localhost'); # 2a. make various queries to a selected database: print $client->db ('uniprot')->find ('sapiens')->count; 175642 print $client->db ('uniprot')->find ('sapiens')->next; ID Q14547_HUMAN Unreviewed; 60 AA. AC Q14547; DT 01-NOV-1996, integrated into UniProtKB/TrEMBL. DT 01-NOV-1996, sequence version 1. DT 19-JAN-2010, entry version 51. DE SubName: Full=Homeobox-like; DE Flags: Fragment; OS Homo sapiens (Human). ... # show id, relevance score and title of two terms connected by AND my $query = $client->db ('enzyme')->find (and => ['snake', 'human'], 'format' => MRS::EntryFormat->HEADER); while (my $record = $query->next) { print $record . "\n"; } enzyme 3.4.21.95 17.6527424 Snake venom factor V activator. # ...show only title, but now the same two terms are connected by OR my $query = $client->db ('enzyme')->find (or => ['snake', 'human'], 'format' => MRS::EntryFormat->TITLE); while (my $record = $query->next) { print $record . "\n"; } Snake venom factor V activator. Jararhagin. Bothropasin. Trimerelysin I. ... # combine term-based (ranked) query with additional boolean expression my $query = $client->db ('uniprot')->find (and => ['snake', 'human'], query => 'NOT (kinase OR reductase)', 'format' => MRS::EntryFormat->HEADER); print "Count: " . $query->count . "\n"; while (my $record = $query->next) { print $record . "\n"; } Count: 75 nxs11_micsu 23.3861961 Short neurotoxin MS11; nxl2_micsu 22.7922745 Long neurotoxin MS2; nxl5_micsu 22.2648716 Long neurotoxin MS5; ... # 2b. explore full information about a database print $client->db ('enzyme'); # ...or extract only information parts you want print $client->db ('enzyme')->version; print $client->db ('enzyme')->count; # 3. Or, almost all functionality is also available in a provided # script I<mrsclient>: [scripts/]mrsclient -h [scripts/]mrsclient -C [scripts/]mrsclient -c -n insulin [scripts/]mrsclient -c -p -d enzyme -a 'endothelin tyrosine' # 4. Run blastp on protein sequences: my @run_args = (fasta_file => 'protein.fasta', db => 'uniprot'); my $job = $client->blast->run (@run_args); print STDERR 'JOB ID: ' . $job->id . ' [' . $job->status . "]\n"; print $job; while (not $job->completed) { print STDERR 'Waiting for 10 seconds... [status: ' . $job->status . "]\n"; sleep 10; } print $job->error if $job->failed; print $job->results; # Or, use for it the provide script I<mrsblast>: [scripts/]mrsblast -h [scripts/]mrsblst -i /tmp/snake.protein.fasta -d uniprot -x result.xml # 5. Run clustalw multiple alignment: my $result = $client->clustal->run (fasta_file => 'multiple.fasta' ); print "ERROR: " . $result->failed if $result->failed; print $result->diagnostics; print $result; # Or, use for it the provide script I<mrsclustal>: [scripts/]mrsclustal -h [scripts/]mrsclustal -i multiple.fasta
This module is a SOAP-based (Web Services) client that can talk, and get data from an MRS server, a search engine for biological and medical databanks that searches well over a terabyte of indexed text. See details about MRS and its author Maarten Hekkelman in "ACKNOWLEDGMENTS".
Because this module is only a client, you need an MRS server running. You can install your own (see details in the MRS distribution), or you need to know a site that runs it. By default, this module contacts the MRS server at CMBI (http://mrs.cmbi.ru.nl/).
The usual scenario is the following:
Create a new instance of a client by calling:
my $client = MRS::Client->new (%args);
Optionally, find out what databanks are available by calling:
my @ids = map { $_->id } $client->db; print "Names:\n" . join ("\n", @ids) . "\n";
Make one or more queries on a selected databanks and iterate over the result:
my $query = $client->db ('enzyme')->find (['cone', 'snail']); while (my $record = $query->next) { print $record . "\n"; }
Or, make the same query on all available databanks:
my $query = $client->find (['cone', 'snail']); while (my $record = $query->next) { print $record . "\n"; }
The format of returned records is specified by a parameter of the find method (see more in "METHODS").
Additionally, this module provides access to blastp program, using MRS indexed databases. And it can invoke multiple alignment program clustalw.
The main module is MRS::Client. It lets the user specify which MRS server to use, and few other global options. It also has a factory method for creating individual databanks objects. Additionally, it allows making query over all databanks. Finally, it covers all the SOAP communication with the server.
MRS::Client
use MRS::Client; my $client = MRS::Client->new (@parameters);
The parameters are name-value pairs. The following names are recognized:
The URLs of the individual MRS servers, one providing searches (the main one), one running blast and one running clustal. Default values lead your searches to CMBI. If you have installed MRS servers on your own site, and you are using the default values coming with the MRS distribution, you create a client by (but see below parameter host for a shortcut):
my $client = MRS::Client->new ( search_url => 'http://localhost:18081/', blast_url => 'http://localhost:18082/', clustal_url => 'http://localhost:18083/', );
Technical detail: These URLs will be used in the location field of the WSDL description.
Alternatively, you can specify these parameters by environment variables (because they will be probably same for most users from the same site). The parameters, however, still have precedence over the values of environment variables (even if they exist). The variables are: MRS_SEARCH_URL, MRS_BLAST_URL and MRS_CLUSTAL_URL.
NOTE: Some sites may not have all MRS servers running.
A shortcut for specifying a host name in all URLs. The same as in the above example can be accomplished by:
my $client = MRS::Client->new (host => 'localhost');
Again, you can specify this parameter by an environment variables MRS_HOST.
The MRS servers are SOAP-based Web Services. Every Web Service has its own service name (the name used in the WSDL). You can change this service name if you are accessing site where they use non-default names. The default names - I guess almost always used - are: mrsws_search, mrsws_blast, mrsws_clustal.
You can also specify your own WSDL file, each one for each set of operations. It is meant more for debugging purposes because this MRS::Client module understands only current operations and adding new ones to a new WSDL does not magically start using them. These parameters may be useful when extending the MRS::Client.
The same names as the argument names described above can be used as method names to get or set the parameter value. A method without an argument gets the current value, a method with an argument sets the new value. For example:
print $client->search_url; $client->search_url ('http://my.own.server/mrs/search');
This is a factory method creating one or more databanks instances. It accepts a single argument, a databank ID:
print $client->db ('enzyme'); Id: enzyme Version: Tue Jun 13 21:29:00 2006 Count: 4645 URL: http://ca.expasy.org/enzyme/ Parser: enzyme Files: Version: Tue Jun 13 21:29:00 2006 Modified: 2010-01-31 22:39:37 Entries count: 4645 Raw data size: 3235666 File size: 10857715 Unique Id: fe2a908e-5ecd-4f72-9d27-e1ef7bccc3af Indices: __ALL_TEXT__ 164412 FullText __ALL_TEXT__ an 4534 FullText Alternate Name ca 4594 FullText Catalytic Activity cc 8184 FullText Comments cf 66 FullText CoFactor de 3341 FullText Description di 574 FullText Disease dr 145912 FullText Database Reference id 4645 Unique Identification pr 418 FullText Prosite Reference
You can find out what databanks IDs are available by:
print join ("\n", map { $_->id } $client->db);
Which brings us to the usage of the db method without any parameter, or with an empty parameter. In such cases, it creates an array of MRS::Client::Databank instances.
MRS::Client::Databank
Make the same query to all databanks. The parameters are the same as for the find method called for an individual databank (see below).
print "Databank\tID\tScore\tTitle\n"; my $query = $client->find (and => ['cone', 'snail'], 'format' => MRS::EntryFormat->HEADER); while (my $record = $query->next) { print $record . "\n"; } print $query->count . "\n"; Databank ID Score Title interpro ipr020242 29.7122746 Conotoxin I2-superfamily interpro ipr012322 27.8191032 Conotoxin, delta-type, conserved site ... omim 114020 3.40963793 cadherin 2 omim 192090 3.40769672 cadherin 1 sprot cxd6d_concn 19.4017849 Delta-conotoxin CnVID; sprot cxd6c_concn 19.3984871 Delta-conotoxin CnVIC; ... taxonomy 6495 53.980381 Conus tulipa fish-hunting cone snail trembl q71ks8_contu 22.1446457 Four-loop conotoxin preproprotein; trembl q9u7q6_contu 20.6787205 Calmodulin; ... 149
The query (method next) returns entries sequentially, one databank after another. As with individual databanks, even here you can select maximum number of entries to deliver - the number is applied for each databank separately:
my $query = $client->find (and => ['cone', 'snail'], max_entries => 2, 'format' => MRS::EntryFormat->HEADER); while (my $record = $query->next) { print $record . "\n"; } interpro ipr020242 29.7122746 Conotoxin I2-superfamily interpro ipr012322 27.8191032 Conotoxin, delta-type, conserved site omim 114020 3.40963793 cadherin 2 omim 192090 3.40769672 cadherin 1 sprot cxd6d_concn 19.4017849 Delta-conotoxin CnVID; sprot cxd6c_concn 19.3984871 Delta-conotoxin CnVIC; taxonomy 6495 53.980381 Conus tulipa fish-hunting cone snail trembl q71ks8_contu 22.1446457 Four-loop conotoxin preproprotein; trembl q9u7q6_contu 20.6787205 Calmodulin;
$client->blast
A factory method for creating a singleton instance of MRS::Client::Blast.
$client->clustal
A factory method for creating instances of MRS::Client::Clustal.
This package represents an MRS databank and allows to query it. Each databank consists of one or more files (represented by MRS::Client::Databank::File) and of indices (MRS::Client::Databank::Index).
MRS::Client::Databank::File
MRS::Client::Databank::Index
A databank instance can be created by a new method but usually it is created by a factory method available in the MRS::Client:
my $db = $client->db ('enzyme');
The factory method, as well as the new method, creates only a "shell" databank instance - that is good enough for making queries but which does not contain any databank properties (name, indices, etc.). The properties will be fetched from the MRS server only when you ask for them (using the "getters" method described below).
The only, and mandatory, parameter is id:
$db = MRS::Client::Databank->new (id => 'interpro');
The arguments syntax (the hash) is prepared for more arguments later (perhaps). But it should not bother you because you would rarely use this method - having the factory method db in the client.
This is the crucial method of the whole MRS::Client module. It queries a databank and returns an MRS::Client::Find instance that can be used to iterate over found entries.
MRS::Client::Find
It takes many arguments. At least one of the "query" arguments (which are query, and and or) must be supplied; other arguments are optional.
The arguments can always be specified as a hash, but for usual cases there are few shortcuts. Let's look at the arguments as used in the hash:
and
The value is an array reference where elements are terms that will be combined by the AND boolean operator in a ranked query. For example:
$find = $db->find (and => ['human', 'snake']);
This argument can also be used directly, not as a hash, assuming that you do not need to use any other arguments:
$find = $db->find (['human', 'snake']);
or
The value is an array reference where elements are terms that will be combined by the OR boolean operator in a ranked query. For example:
$find = $db->find (or => ['human', 'snake']);
There can be either an and or an or argument, but not both. If there are used both, a warning is issued and the and one will take precedence.
query
The value is an expression, usually using some boolean operators (in upper cases!):
$find = $db->find (query => 'hemoglobinase AND NOT human');
If there are no boolean operators, it is used as a single term. For example, these are equivalent:
$find = $db->find (query => 'hemoglobinase activity'); $find = $db->find (and => ['hemoglobinase activity']);
You can also use both, and or or, and query. The query then is an additional filter applied to the results found by the and or or terms. For example:
$find = $db->find (and => ['human', 'snake'], query => 'NOT neurotoxin');
As a shortcut, the query parameter can also be used without a hash, assuming again that you do not need to use any other arguments:
$find = $db->find ('hemoglobinase AND NOT human');
algorithm
The ranked queries (the ones achieved by and or or arguments) have assigned relevance score to their hits. The relevance score depends on the used algorithm. The available values for this arguments are defined in MRS::Algorithm:
MRS::Algorithm
package MRS::Algorithm; use constant { VECTOR => 'Vector', DICE => 'Dice', JACCARD => 'Jaccard', };
The default algorithm is "Vector". For example (using the format "header" - which is the only one that shows relevance scores):
$client->$db('enzyme')->find (and => 'venom', algorithm => MRS::Algorithm->Dice, max_entries => 3, 'format' => MRS::EntryFormat->HEADER); enzyme 3.4.24.43 14.9607477 Atroxase. enzyme 3.4.24.49 13.6817474 Bothropasin. enzyme 3.4.24.73 13.2007284 Jararhagin. $client->$db('enzyme')->find (and => 'venom', algorithm => MRS::Algorithm->Vector, max_entries => 3, 'format' => MRS::EntryFormat->HEADER); enzyme 3.1.15.1 21.6520195 Venom exonuclease. enzyme 3.4.21.60 19.3931656 Scutelarin. enzyme 5.1.1.16 16.7410889 Protein-serine epimerase.
start
offset
max_entries
These arguments do not affect the query itself but it tells which entries from the found ones to retrieve (by the next method - see below).
All these three arguments have an integer value.
start tells to skip entries at the beginning of the whole result and start returning only with the entry with this order number. The counting start from 1.
offset is the same as the start, except the counting starts from zero.
max_entries is the maximum entries to retrieve.
format
This argument also does not affect the query itself but it defines the format of the returned entries. The available values for this arguments are defined in MRS::EntryFormat:
MRS::EntryFormat
package MRS::EntryFormat; use constant { PLAIN => 'plain', TITLE => 'title', HTML => 'html', FASTA => 'fasta', SEQUENCE => 'sequence', HEADER => 'header', };
The default format is 'plain'. The 'fasta' and 'sequence' formats are available only for databanks that have sequence data. For all formats, except for the 'header', the entries are returned as strings. For 'header', the entries are instances of MRS::Client::Hit.
MRS::Client::Hit
Be aware that format is also a built-in Perl function, so better quote it when used as a hash key (it seems to work also without quotes except the emacs TAB key is confused if there are no surrounding quotes; just a minor annoyance).
xformat
This argument (eXtended format) enhances the format argument. It is used (at least at the moment) only for HTML format; for other formats, it is ignored.
eXtended format
Be aware, however, that the xformat depends on the structure of the HTML provided by the MRS. This structure is not defined in the MRS server API, so it can change easily. It even depends on the way how the authors write their parsing scripts. When the HTML output changes this module must be changed, as well. Caveat emptor.
The xformat is a hashref with keys that change (slightly or significantly) the returned HTML. Here are all possible keys (with a randomly picked up values):
xformat => { MRS::XFormat::CSS_CLASS() => 'mrslink', MRS::XFormat::URL_PREFIX() => 'http://cbrcgit:8080/mrs-web/' MRS::XFormat::REMOVE_DEAD() => 1, # or => ['...'] MRS::XFormat::ONLY_LINKS() => 1 }
MRS::XFormat::CSS_CLASS specifies a CSS-class name that will be added to all a tags in the returned HTML. It allows, for example, an easy post-processing by various JavaScript libraries. For example, if the original HTML contains:
MRS::XFormat::CSS_CLASS
a
<a href="entry.do?db=go&id=0005576"></a>
it will become (using the value shown above):
<a class="mrslinks" href="entry.do?db=go&id=0005576"></a>
MRS::XFormat::URL_PREFIX helps to keep the returned HTML independent on the machine where it was created. This option pre-pends the given prefix to the relative URLs in the hyperlinks that point to the data in an MRS web application. For example, if the original HTML contains:
MRS::XFormat::URL_PREFIX
it will become:
<a href="http://cbrcgit:8080/mrs-web/entry.do?db=go&id=0005576"></a>
Other hyperlinks - those not starting with query or entry - are not affected.
entry
XFormat::REMOVE_DEAD deals with the fact that the MRS server creates hyperlinks pointing to other MRS databanks without checking that they actually exists in the local MRS installation. This may be fixed later (quoting Maarten) but before it happens this option (if with a true value) removes (from the returned HTML) all hyperlinks that point to the not-installed MRS databanks. For example, if the original HTML has these hyperlinks:
XFormat::REMOVE_DEAD
<a href="query.do?db=embl&query=ac:AF536179">AF536179</a> <a href="query.do?db=embl&query=ac:D00735">D00735</a> <a href="entry.do?db=pdb&id=1VZN">1VZN</a> <a href="entry.do?db=pdb&id=2FK4">2FK4</a>
and the pdb database is not locally installed, the returned HTML will change to:
pdb
<a href="query.do?db=embl&query=ac:AF536179">AF536179</a> <a href="query.do?db=embl&query=ac:D00735">D00735</a> 1VZN 2FK4
There is a small caveat, however. The MRS::Client needs to know what databanks are installed. It finds out by asking the MRS server by using the method db() (explained elsewhere in this document). This method returns much more than is needed, so it can be slightly expensive. Therefore, if your concern is the highest speed, you can help the MRS::Client by providing a list of databanks that you know you have installed. Actually, in most cases, you can create such list also by calling the db() method but depending on your code you can call it just ones an reuse it. For example, if you wish to keep hyperlinks only for 'uniprot' and 'embl', you specify;
db()
xformat => { MRS::XFormat::REMOVE_DEAD() => ['uniprot', 'embl'] }
Finally, there is an option MRS::XFormat::ONLY_LINKS. It has a very specific function: to extract and return only the hyperlinks, not the whole HTML. It is, therefore, predestined for further post-processing. Note that all changes in the hyperlinks described earlier are also applied here (e.g. adding an absolute URL or a CSS class).
MRS::XFormat::ONLY_LINKS
only
When this option is used, the whole method "$find->next" (or "db->entry") returns a reference to an array of extracted hyperlinks:
my $find = $client->db('sprot')->find (and => ['DNP_DENAN'], 'format' => MRS::EntryFormat->HTML, xformat => { MRS::XFormat::ONLY_LINKS() => 1, MRS::XFormat::CSS_CLASS() => 'mrslink', }, ); while (my $record = $find->next) { print join ("\n", @$record) . "\n";
Which prints something like:
<a class="mrslink" href="entry.do?db=taxonomy&id=8618">8618</a> <a class="mrslink" href="query.do?db=taxonomy&query=Eukaryota">Eukaryota</a> ... <a class="mrslink" href="query.do?db=uniprot&query=kw:Disulfide kw:bond ">Disulfide bond</a> ... <a class="mrslink" href="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=...">92332489</a> ... <a class="mrslink" href="entry.do?db=go&id=0009405"></a>
It returns a number of entries in the whole databank.
print $client->db ('enzyme')->count; 4645
Do not confuse it with the method of the same name but called on the object returned by the find method - that one returns a number of hits of that particular query.
It takes an entry ID (mandatory), and optionally its format and extended format, and it returns the given entry:
print $client->db ('enzyme')->entry ('3.4.21.60'); ID 3.4.21.60 DE Scutelarin. AN Taipan activator. CA Selective cleavage of Arg-|-Thr and Arg-|-Ile in prothrombin to form CA thrombin and two inactive fragments. CC -!- From the venom of Taipan snake (Oxyuranus scutellatus). CC -!- Converts prothrombin to thrombin in the absence of coagulation factor CC Va, and is potentiated by phospholipid and calcium. CC -!- Specificity is similar to that of factor Xa. CC -!- Binds calcium via gamma-carboxyglutamic acid residues. CC -!- Similar enzymes are known from the venom of other Australian elapid CC snakes Pseudonaja textilis, Oxyuranus microlepidotus and Demansia CC nuchalis affinis. CC -!- Formerly EC 3.4.99.28. // print $client->db ('enzyme')->entry ('3.4.21.60', MRS::EntryFormat->TITLE); Scutelarin.
The optional extended format is a hashref and it was explained earlier in the section about the find() method.
extended format
find()
There are several methods delivering databank properties. They have no arguments:
my $db = $client->db('omim'); print $db->id . "\n"; print $db->name . "\n"; print $db->version . "\n"; print $db->blastable . "\n"; print $db->url . "\n"; print $db->script . "\n";
Each databank consists of one or more files. This method returns a reference to an array of MRS::Client::Databank::File instances. Each such instance has properties reachable by the following "getters" methods:
sub say { print @_, "\n"; } my $db_files = $client->db('uniprot')->files; foreach my $file (@{ $db_files }) { say $file->id; say $file->version; say $file->last_modified; say $file->entries_count; say $file->raw_data_size; say $file->file_size; say ''; }
Each databank is indexed by (usually several) indices. This method returns a reference to an array of MRS::Client::Databank::Index instances. Each such instance has properties reachable by the "getters" method:
my $db_indices = $client->db('uniprot')->indices; foreach my $idx (@{ $db_indices }) { printf ("%-15s%9d %-9s %s\n", $idx->id, $idx->count, $idx->type, $idx->description); }
The index id is important because it can be used in the queries. For example, assuming that the database has an index os (organism species):
$db->find (query => 'rds AND os:human');
This object carries results of a query; it is returned by the find method, called either on a databank instance or on the whole client. Actually, in case of the whole client, the returned type is of type MRS::Client::MultiFind which is a subclass MRS::Client::Find.
MRS::Client::MultiFind
The getter methods just reflect query arguments (the ones given to the find method):
find
sub say { print @_, "\n"; } my $find = $client->db('uniprot')->find('sapiens'); say $find->db; say join (", ", @ {$find->terms }); say $find->query; say $find->max_entries; say $find->all_terms_required;
The terms (a ref array) are either from the and or or argument, and the all_terms_required is 1 (when terms are coming from the and) or zero.
Finally, you can get the number of hits of this query. Be aware (as mentioned elsewhere in this document) that boolean queries return only an estimate, usually much higher than is the reality.
This object is returned from the find method made to all databanks. It is a subclass of the MRS::Client::Find with one additional method:
It returns databank names and their total counts in a hash (not a reference) where keys are the databank names and values the entry counts:
my %counts = $find->db_counts; foreach my $db (sort keys %counts) { printf ("%-15s %9d\n", $db, $counts{$db}); }
Finally, a tiny object representing a hit, a result of a query before going to a databank for the full contents of a found entry. It contains the databank's ID (where the hit was found), the score that this hit achieved (for boolean queries, the score is always 1) and the ID and title of the entry represented by this hit.
The corresponding getters methods are db, score, id and title.
The next method (as shown above) returns just hits (instead of the full entries) when the format MRS::EntryFormat-HEADER> is specified.
The MRS servers provide sequence homology searches, the famous Blast program (namely the blastp program for protein sequences). An input sequence (in FASTA format) is searched against one of the MRS databanks. It can be any MRS databank whose method blastable returns true (e.g. uniprot). An input sequence and a databank are the only mandatory input parameters. Other common Blast parameters are also supported.
blastable
The invocation is asynchronous. It means that the run method returns immediately, without waiting for the Blast program to finish, giving back a job id, a handler that can be used later for polling for status, and, once status indicates the Blast finishes, for getting results (or an error message). This is the typical usage:
my @run_args = (fasta_file => '...', db => '...', ...); my $job = $client->blast->run (@run_args); sleep 10 while (not $job->completed); print $job->error if $job->failed; print $job->results; 529.0 1.346582e-149 [vsph_trije ] 1 Snake venom serine protease homolog; 509.0 1.411994e-143 [vspa_triga ] 1 Venom serine proteinase 2A; 508.0 2.823987e-143 [vsp1m_trist ] 1 Venom serine protease 1 homolog; 506.0 1.129595e-142 [vsp07_trist ] 1 Venom serine protease KN7 homolog; 488.0 2.961165e-137 [vsp2_trifl ] 1 Venom serine proteinase 2; 487.0 5.922331e-137 [vsp1_trije ] 1 Venom serine proteinase-like protein; 456.0 1.271811e-127 [vsp04_trist ] 1 Venom serine protease KN4 homolog; ...
You can also use provided script mrsblast that polls for you (if you wish so).
mrsblast
In order to create an MRS::Client::Blast instance, use the factory method:
MRS::Client::Blast
my $blast = $client->blast;
The main method that starts Blast with the given parameters and immediately returns an object MRS::Client::Blast::Job that can be used for all other important methods. If you plan to stop your Perl program and start it again later, you need to remember the job ID:
MRS::Client::Blast::Job
my $job = $blast->run (...); print $job->id;
The job ID can be later used to re-create the same (well, similar) Job object (see method job below) that again provides all important methods (such as getting results).
The method run has following arguments (the Job object has the same "getter" methods), all given as a hash:
An MRS databank to search against. Mandatory parameter.
A protein sequence in a FASTA format. Mandatory parameter unless fasta_file is given.
fasta_file
A name of a file containing a protein sequence in a FASTA format. Mandatory parameter unless fasta is given.
fasta
Low complexity filter. Boolean parameter. Default is 1.
E-value cutoff. A float value. Default is 10.0.
An integer. Default is 3.
Scoring matrix. Default BLOSUM62.
Gap opening penalty. An integer. Default is 11.
Gap extension penalty. Default is 1.
An MRS boolean query to limit the search space.
A boolean parameter. Its true value performs gapped alignment. Default is true.
Limit reported hits. An integer. Default is 250.
The method finds or re-creates a Job object of the given ID:
my $job = $client->blast->job ('0f37a544-a7a2-4239-b950-65a6aa07d1ef'); print $job->id; print $job->status;
It dies with an error if such Job is not known to the MRS server.
The returned Job object can be used to ask for the Job status, or for getting the Job results. There is one caveat, however. The re-created Job object is not that "rich" as was its original version: it does not know, for example, what parameters were used to start this blast job. Unfortunately, the MRS server keeps only the Job ID and nothing else. Fortunately, the parameters are needed only for the results in the XML format (see more about available formats below, in the method $job->results) - and you can add them (if you still have them), as a hash, to the job method when re-creating a new Job instance:
job
my $job - $client->blast->job ('0f37a544-a7a2-4239-b950-65a6aa07d1ef', fasta => '...', db => 'iniprot', ...);
The Job object represents a single Blast invocation with a set of input parameters and, later, with results. It is also used to poll for the status of the running job. Instances of this objects are created by the run or job methods of the blast object. The Job's methods are:
blast
Job ID, an important handler if you have to re-create an MRS::Client::Blast::Job object.
All these methods are equivalent to (and named the same as) the parameters given to the run method (described above):
run
The status returns one of the MRS::JobStatus:
MRS::JobStatus
use constant { UNKNOWN => 'unknown', QUEUED => 'queued', RUNNING => 'running', ERROR => 'error', FINISHED => 'finished', };
The completed returns true if the status is either ERROR or FINISHED. The failed returns true if the status is ERROR. Typical usage for polling a running job is:
ERROR
FINISHED
sleep 10 while (not $job->completed);
It returns an error message, or undef if the status is not ERROR. Typical usage is:
print $job->error if $job->failed;
Finally, the more interesting method. It returns an object of type MRS::Client::Blast::Result that can be either used on its own (see its "getter" method below), or converted to strings of one of the format predefined in MRS::BlastOutputFormat:
MRS::Client::Blast::Result
MRS::BlastOutputFormat
use constant { XML => 'xml', HITS => 'hits', FULL => 'full', STATS => 'stats', };
The format is the only parameter of this method. Default format is HITS. The conversion to the given format is done by overloading the double quotes operator, calling internally the method "as_string". You just print the object:
HITS
print $job->results; 447.0 6.511672e-125 [vspgl_glosh ] 1 Thrombin-like enzyme gloshedobin; 429.0 1.706996e-119 [vsp2_viple ] 1 Venom serine proteinase-like protein 2; 421.0 4.369909e-117 [vsp12_trist ] 1 Venom serine protease KN12; 419.0 1.747964e-116 [vsps1_trist ] 1 Thrombin-like enzyme stejnefibrase-1; ...
Where lines are individual hits and columns are: bit_score, expect, sequence ID, number of HSPs for this hit, sequence description.
Or, giving just the Blast run statistics:
print $job->results (MRS::BlastOutputFormat->STATS); DB count: 514212 DB length: 180900945 Search space: 23664675636 Kappa: 0.041 Lambda: 0.267 Entropy: 0.140
Or, showing everything (in a rather un-parsable form, useful more for testing than anything else):
print $job->results (MRS::BlastOutputFormat->FULL);
Or, in an XML format:
print $job->results (MRS::BlastOutputFormat->XML);
You can explore the returned Blast results by the following "getter" methods - going from the whole result to the individual hits and inside hits to the individual HSPs (High-scoring pairs):
Effective search space.
It returns a reference to an array of MRS::Client::Blast::Hits where each hit has methods:
MRS::Client::Blast::Hit
It is a reference to an array of sequence IDs.
It is a reference to an array of MRS::Client::Blast::HSPs where each HSP has methods:
MRS::Client::Blast::HSP
Try to explore various result formats by using the provided script mrsblast. This waits for a job to be completed and then prints its hits:
mrsblast -d sprot -i 'your.fasta'
This shows Blast statistics:
mrsblast -d sprot -i 'your.fasta' -N
This produces an XML output to a given file:
mrsblast -d sprot -i 'your.fasta' -x results.xml
Finally, this gives a long listing with all details:
mrsblast -d sprot -i 'your.fasta' -f
The module wrapping the multiple alignment program clustalw. The program is optional and, therefore, not all MRS servers may have it. Use the factory method for creating instances of MRS::Client::Clustal:
The main method, invoking clustalw with mandatory input sequences and optionally a couple of other parameters:
my $result = $client->clustal->run (fasta_file => 'my.proteins.fasta');
A file with multiple sequences in FASTA format.
A gap opening penalty (an integer).
A gap extension penalty (a float).
It returns result in an instance of MRS::Client::Clustal::Result.
It returns what gap opening penalty has been set in the run method.
It returns what gap extension penalty has been set in the run method.
It is created by running:
$client->clustal->run (...);
It returns a reference to an array of MRS::Client::Clustal::Sequence instances. Each of them has methods id and sequence. You can also just print the formatted alignment (it uses its own as_string method that overloads double quotes operator):
print $client->clustal->run (fasta_file => 'several.proteins.fasta'); vsph_trije : -VMGWGTISATKETHPDVPYCANINILDYSVCRAAYARLPATSRTLCAGILE-----GGKDSCLTD----SGGPLICNGQFQGIVSWGGHPCGQP-RKPGLYTKVFDHLDWIKSIIAGNKDATCPP nxsa_latse : ----MKTLLLTLVVVTIV--CLDLGYTR--ICFNHQSSQPQTTKT-CS---------PGESSCYNK----QWS------DFRGTIIERG--CGCPTVKPGI------KLSCCESEVCNN------- pa21b_pseau: NLIQFGNMIQCANKGSRP--SLDYADYG-CYCGWGGSGTPVDELDRCCQVHDNCYEQAGKKGCFPKLTLYSWKCTGNVPTCNSKPGCKSFVCACDAAAAKC----FAKAPYKKENYNIDTKKRCK-
It shows the standard output of the underlying clustalw program:
my $result = $client->clustal->run (fasta_file => 'several.proteins.fasta'); print $result->diagnostics; CLUSTAL 2.0.10 Multiple Sequence Alignments Sequence type explicitly set to Protein Sequence format is Pearson Sequence 1: vsph_trije 115 aa Sequence 2: nxsa_latse 83 aa Sequence 3: pa21b_pseau 118 aa Start of Pairwise alignments Aligning... Sequences (1:2) Aligned. Score: 13 Sequences (1:3) Aligned. Score: 5 Sequences (2:3) Aligned. Score: 8 Guide tree file created: ... There are 2 groups Start of Multiple Alignment Aligning... Group 1: Delayed Group 2: Delayed Alignment Score -93 GDE-Alignment file created ...
It returns standard error output of the underlying clustalw program. It the program finished without problems, it returns undef.
The MRS distinguishes between so-called ranked queries and boolean queries, and it recognizes also boolean filters. I probably need to learn more about their differences. That's why you may see some differences in query results shown by this module and the mrsweb web application (an application distributed together with the implementation of the MRS servers).
The contents of the search field in the mrsweb is first parsed in order to find out if it is a boolean expression, or not. Depending on the result it uses either a ranked or boolean query. It also splits the terms and combine them (by default) with the logical AND. For example, in mrsweb if you type (using the uniprot):
cone snail
you get 134 entries. You get the same number of hits by the MRS::Client module when using an and argument:
print $client->db('uniprot')->find (and => ['cone','snail'])->count; 134
But you cannot just pass the whole expression as a query string (as you do in mrsweb):
print $client->db('uniprot')->find ('cone snail')->count; 0
You get zero entries because the MRS::Client considers the above as one term. And if you add a boolean operator:
print $client->db('uniprot')->find ('cone AND snail')->count; 4609
then the boolean query was used and, as explained by the MRS, the "query did not return an exact result, displaying the closest matches". But, fortunately, when you iterate over this result, you will get, correctly, just the 134 entries.
The MRS servers provide few more operations that are not-yet covered by this module. It would be useful to discuss which of those are worth to implement. They are:
GetMetaData FindSimilar GetLinked Cooccurrence SpellCheck SuggestSearchTerms CompareDocuments ClusterDocuments
There is also a potentially useful attribute links in the databank's info which has not been yet explored by this module.
Almost all functionality of the MRS::Client module is also available from a command-line controlled scripts mrsclient, mrsblast and mrsclustal. Try , for example:
mrsclient -h mrsclient -C mrsclient -c -n insulin mrsclient -c -p -d enzyme -a 'endothelin tyrosine' mrsblast -h mrsclustal -h
The MRS::Client module uses the following modules:
XML::Compile::SOAP11 XML::Compile::WSDL11 XML::Compile::Transport::SOAPHTTP File::Basename File::Path Math::BigInt FindBin Getopt::Std
Martin Senger <martin.senger@gmail.com>
Please report any bugs or feature requests to bug-mrs-client at rt.cpan.org, or through the web interface at http://rt.cpan.org/NoAuth/ReportBug.html?Queue=MRS-Client. I will be notified, and then you'll automatically be notified of progress on your bug as I make changes.
bug-mrs-client at rt.cpan.org
You can find documentation for this module with the perldoc command.
perldoc MRS::Client
You can also look for information at:
RT: CPAN's request tracker
http://rt.cpan.org/NoAuth/Bugs.html?Dist=MRS-Client
AnnoCPAN: Annotated CPAN documentation
http://annocpan.org/dist/MRS-Client
CPAN Ratings
http://cpanratings.perl.org/d/MRS-Client
Search CPAN
http://search.cpan.org/dist/MRS-Client
This client module would be useless without having an MRS server (e.g. at http://mrs.cmbi.ru.nl/mrs-web/). The MRS stands for Maarten's Retrieval System and was developed (and is maintained) by Maarten Hekkelman at the CMBI (http://www.cmbi.ru.nl/), with the help and contributions from many others.
The MRS itself has also its own Perl module MRS.pm, called plugin and distributed together with the MRS, that accesses MRS server(s) directly, without using the SOAP Web Services protocol. The plugin was helpful to find out what the server might expect.
Additionally, the MRS distribution has few testing scripts that use SOAP protocol to access data in the same way as this MRS::Client module does. Therefore, this module can be seen as an extension of these testing scripts into a slightly more comprehensive and perhaps more documented package.
The MRS server provides Blast results that are not in XML. In order to make an XML output, this module uses, hopefully, the same format and conversion as found in the MRS web application mrsweb.
This software is copyright (c) 2012 by Martin Senger, CBRC - KAUST (Computational Biology Research Center - King Abdullah University of Science and Technology) All Rights Reserved..
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.
1 POD Error
The following errors were encountered while parsing the POD:
Expected text after =item, not a bullet
To install MRS::Client, copy and paste the appropriate command in to your terminal.
cpanm
cpanm MRS::Client
CPAN shell
perl -MCPAN -e shell install MRS::Client
For more information on module installation, please visit the detailed CPAN module installation guide.