iRefIndex Build Process

From irefindex
Revision as of 17:03, 12 October 2010 by PaulBoddie (talk | contribs) (→‎Validating the Results from StaxPSIXML: Changed the module name.)

Downloading the Source Data

Before downloading the source data, a location must be chosen for the downloaded files. For example:

/home/irefindex/data

Some data sources need special links to be obtained from their administrators via e-mail, and in general there is a distinction between free and proprietary data sources, described as follows:

Free
BIND, BioGrid, Gene2Refseq (NCBI), IntAct, MINT, MMDB/PDB, MPPI, OPHID, RefSeq, UniProt
Proprietary
BIND Translation, CORUM, DIP, HPRD, MPact

I2D, which was considered for iRefIndex 7.0, is currently under review for inclusion in future releases. The status of BIND Translation is currently under review for possible inclusion in the free dataset in future releases.

The FTPtransfer program will download data from the following sources:

  • Gene2Refseq
  • IntAct
  • MINT
  • MMDB
  • PDB
  • RefSeq
  • UniProt

Manual Downloads

More information can be found at the following location: Sources_iRefIndex_8.0

For each manual download, a subdirectory hierarchy must be created in the main data directory using a command of the following form:

mkdir -p <path-to-data>/<source>/<date>/

Here, <path-to-data> should be replaced by the location of the data directory, <source> should be replaced by the name of the source, and <date> should be replaced by the current date.

For example, for BIND this directory might be created as follows:

mkdir -p /home/irefindex/data/BIND/2010-02-08/

BIND

The FTP site was previously available at the following location:

ftp://ftp.bind.ca/pub/BIND/data/bindflatfiles/bindindex/

An archived copy of the data can be found at the following internal location:

/biotek/dias/donaldson3/Sabry/DATA_2006/BINDftp/

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/BIND/2010-02-08/

Copy the following following files into the newly created data directory:

20060525.complex2refs.txt
20060525.complex2subunits.txt
20060525.ints.txt
20060525.labels.txt
20060525.refs.txt

BIND Translation

The location of BIND Translation downloads is as follows:

http://download.baderlab.org/BIND/

The location of the specific file to be downloaded is the following:

http://download.baderlab.org/BIND/PSIMI25_AllInclusive_AllSpecies.zip

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/BIND_Translation/2010-02-08/

Download the file into the newly created data directory and unpack it as follows:

cd /home/irefindex/data/BIND_Translation/2010-02-08/
unzip PSIMI25_AllInclusive_AllSpecies.zip

BioGRID

The location of BioGRID downloads is as follows:

http://www.thebiogrid.org/downloads.php

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/BioGRID/2010-02-08/

Select the BIOGRID-ALL-X.Y.Z.psi25.zip file (where X.Y.Z should be replaced by the actual release number) and download/copy it to the newly created data directory for BioGRID.

In the data directory for BioGRID, uncompress the downloaded file. For example:

cd /home/irefindex/data/BioGRID/2010-02-08/
unzip BIOGRID-ALL-2.0.62.psi25.zip

CORUM

The location of CORUM downloads is as follows:

http://mips.gsf.de/genre/proj/corum/index.html

The specific download file is this one:

http://mips.gsf.de/genre/export/sites/default/corum/allComplexes.psimi.zip

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/CORUM/2010-02-08/

Copy/download the file referenced above and uncompress it in the data directory for CORUM. For example:

cd /home/irefindex/data/CORUM/2010-02-08/
unzip allComplexes.psimi.zip

DIP

Access to data from DIP is performed via the following location:

http://dip.doe-mbi.ucla.edu/dip/Login.cgi?

You have to register, agree to terms, and get a user account.

Access credentials for internal users are available from Sabry.

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/DIP/2010-02-08/

Select the FULL - complete DIP data set from the Files page:

http://dip.doe-mbi.ucla.edu/dip/Download.cgi?SM=3

Download the latest PSI-MI 2.5 file (dip<date>.mif25) to the newly created data directory. If a compressed version of the file was chosen, uncompress the file using the gunzip tool. For example:

cd /home/irefindex/data/DIP/2010-02-08/
gunzip dip20080708.mif25.gz

HPRD

http://www.hprd.org/download/

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/HPRD/2010-02-08/

Download the PSI-MI single file (HPRD_SINGLE_PSIMI_<date>.xml.tar.gz) to the newly created data directory.

Note: you have to register each and every time, unfortunately.

Uncompress the downloaded file. For example:

cd /home/irefindex/data/HPRD/2010-02-08/
tar zxf HPRD_SINGLE_PSIMI_090107.xml.tar.gz

I2D

For iRefIndex 7.0, I2D was supposed to replace OPHID, but problems with the source files have excluded I2D from that release.

http://ophid.utoronto.ca/ophidv2.201/downloads.jsp

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/I2D/2010-02-08/

For the Download Format in the download request form, specify PSI-MI 2.5 XML. Unfortunately, each Target Organism must be specified in turn when submitting the form: there is no ALL option.

Uncompress each downloaded file. For example:

cd /home/irefindex/data/I2D/2010-02-08/
unzip i2d.HUMAN.psi25.zip

InnateDB

Select the "Curated InnateDB Data" download from the InnateDB downloads page:

http://www.innatedb.com/download.jsp

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/InnateDB/2010-02-08/

Uncompress the downloaded file. For example:

cd /home/irefindex/data/InnateDB/2010-02-08/
gunzip innatedb_20100716.xml.gz

OPHID

From iRefIndex 8.0, I2D replaces OPHID.

OPHID is no longer available, so you have to use the local copy of the data:

/biotek/dias/donaldson3/Sabry/iRefIndex_Backup/BckUp15SEP2008/OPHID/2008MAR16

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/OPHID/2010-02-08/

Copy the file ophid1153236640123.xml to the newly created data directory.

MIPS

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/MIPS/2010-02-08/

For MPPI, download the following file:

http://mips.gsf.de/proj/ppi/data/mppi.gz

For MPACT, download the following file:

ftp://ftpmips.gsf.de/yeast/PPI/mpact-complete.psi25.xml.gz

Uncompress the downloaded files. For example:

cd /home/irefindex/data/MIPS/2010-02-08/
gunzip mpact-complete.psi25.xml.gz
gunzip mppi.gz

SEGUID

Downloading of the SEGUID dataset is described below.

UniProt

In the main downloaded data directory, create a subdirectory hierarchy as noted above. For example:

mkdir -p /home/irefindex/data/UniProt/2010-02-08/

Visit the following site:

http://www.uniprot.org/downloads

Download the UniProtKB/Swiss-Prot and UniProtKB/TrEMBL files in text format:

Or from the EBI UK mirror:

These files should be moved into the newly created data directory and uncompressed. For example:

cd /home/irefindex/data/UniProt/2010-02-08/
gunzip uniprot_sprot.dat.gz
gunzip uniprot_trembl.dat.gz
gunzip uniprot_sprot_varsplic.fasta.gz

Build Dependencies

To build the software, Apache Ant needs to be available. This software could be retrieved from the Apache site...

http://ant.apache.org/bindownload.cgi

...or from a mirror such as one of the following:

http://mirrorservice.nomedia.no/apache.org//ant/binaries/apache-ant-1.8.1-bin.tar.gz

http://mirrors.powertech.no/www.apache.org/dist//ant/binaries/apache-ant-1.8.1-bin.tar.gz

This software can be extracted as follows:

tar zxf apache-ant-1.8.1-bin.tar.gz

This will produce a directory called apache-ant-1.8.1 containing a directory called bin. The outer directory should be recorded in the ANT_HOME environment variable, whereas the bin directory should be incorporated into the PATH environment variable on your system. For example, for bash:

export ANT_HOME=/home/irefindex/apps/apache-ant-1.8.1
export PATH=${PATH}:${ANT_HOME}/bin

It should now be possible to run the ant program.

Building FTPtransfer

The FTPtransfer.jar file needs to be obtained or built.

  1. Get the program's source code from this location:

    https://hfaistos.uio.no/cgi-bin/viewvc.cgi/bioscape/bioscape/modules/interaction/Sabry/FTPtransfer/

    Using CVS with the appropriate CVSROOT setting, run the following command:

    cvs co bioscape/bioscape/modules/interaction/Sabry/FTPtransfer

    The CVSROOT environment variable should be set to the following for this to work:

    export CVSROOT=:ext:<username>@hfaistos.uio.no:/mn/hfaistos/storage/cvsroot
    (The <username> should be replaced with your actual username.)
  2. Obtain the program's dependencies. This program uses the Apache commons-net package, and this must be available during compilation. This library could be retrieved from the Apache site...

    http://commons.apache.org/downloads/download_net.cgi

    ...or from a mirror such as one of the following:

    http://mirrorservice.nomedia.no/apache.org/commons/net/binaries/commons-net-1.4.1.tar.gz

    http://www.powertech.no/apache/dist/commons/net/binaries/commons-net-1.4.1.tar.gz

  3. Extract the dependencies:
    tar zxf commons-net-1.4.1.tar.gz

    This will produce a directory called commons-net-1.4.1 containing a file called commons-net-1.4.1.jar which should be placed in the lib directory in the FTPtransfer directory...

    mkdir lib
    cp commons-net-1.4.1/commons-net-1.4.1.jar lib/

    Alternatively, the external libraries can also be found in the following location:

    /biotek/dias/donaldson3/iRefIndex/External_libraries
  4. Compile the source code. In order to build the software on a computer which does not have the NetBeans IDE installed, copy the generic build file into the FTPtransfer directory:
    cp Build_files/build.xml .

    Compile and create the .jar file as follows:

    ant jar

Running FTPtransfer

To run the program, invoke the .jar file as follows:

java -Xms256m -Xmx256m -jar build/jar/FTPtransfer.jar log datadir

The specified log argument can be replaced with a suitable location for the program's execution log, whereas the datadir argument should be replaced with a suitable location for downloaded data (such as /home/irefindex/data).

Building SHA

The SHA.jar file needs to be obtained or built.

  1. Get the program's source code from this location:

    https://hfaistos.uio.no/cgi-bin/viewvc.cgi/bioscape/bioscape/modules/interaction/Sabry/SHA/

    Using CVS with the appropriate CVSROOT setting, run the following command:

    cvs co bioscape/bioscape/modules/interaction/Sabry/SHA

    The CVSROOT environment variable should be set to the following for this to work:

    export CVSROOT=:ext:<username>@hfaistos.uio.no:/mn/hfaistos/storage/cvsroot
    (The <username> should be replaced with your actual username.)
  2. Compile the source code. Compile and create the .jar file as follows:
    ant jar

    The SHA.jar file will be created in the dist directory.

Building SaxValidator

The SaxValidator.jar file needs to be obtained or built.

  1. Get the program's source code from this location:

    https://hfaistos.uio.no/cgi-bin/viewvc.cgi/Parser/SaxValidator/

    Using CVS with the appropriate CVSROOT setting, run the following command:

    cvs co Parser/SaxValidator

    The CVSROOT environment variable should be set to the following for this to work:

    export CVSROOT=:ext:<username>@hfaistos.uio.no:/mn/hfaistos/storage/cvsroot
    (The <username> should be replaced with your actual username.)
  2. Compile and create the .jar file as follows:
    ant jar

Running SaxValidator

The program used for validation and integrity checks is called SaxValidator and when the name was chosen it was merely a SAX-based validator. However, more functionality has since been included:

  1. Validate XML files against a schema.
  2. XML parser-independent counting of elements (count number of </interaction> and </interactor> tags in each file). This gives an indication on what to expect at the end of the parsing.
  3. Count number of lines in BIND text.
  4. Remove files containing negative interactions.

Run the program as follows:

java -jar -Xms256m -Xmx256m dist/SaxValidator.jar  <date extension> <validate true/false> <count elements true/false>

For example:

java -jar -Xms256m -Xmx256m dist/SaxValidator.jar /home/irefindex/data /2010-02-08/ true true

Be sure to include the leading and trailing / characters around the date information.

Handling Invalid Files

For each data source, invalid files will be moved to a subdirectory of that source's data directory. These subdirectories can be found by using the following Unix command:

find /home/irefindex/data -name inValid

Known Issues

  • MIPS MPACT/MPPI files may be flagged as invalid, but can still be parsed using workarounds in the parsing process

Alternatives and Utilities

The xmllint program provided in the libxml2 distribution, typically available as standard on GNU/Linux distributions, can be used to check and correct XML files. For example:

xmllint HPRD/2010-09-14/inValid/HPRD_SINGLE_PSIMI_041210.xml > HPRD_SINGLE_PSIMI_041210-corrected.xml

This corrects well-formedness issues with the source file in the output file.

Building BioPSI_Suplimenter

The BioPSI_Suplimenter.jar file needs to be obtained or built.

  1. Get the program's source code from this location:

    https://hfaistos.uio.no/cgi-bin/viewvc.cgi/bioscape/bioscape/modules/interaction/Sabry/BioPSI_Suplimenter/

    Using CVS with the appropriate CVSROOT setting, run the following command:

    cvs co bioscape/bioscape/modules/interaction/Sabry/BioPSI_Suplimenter

    The CVSROOT environment variable should be set to the following for this to work:

    export CVSROOT=:ext:<username>@hfaistos.uio.no:/mn/hfaistos/storage/cvsroot
    (The <username> should be replaced with your actual username.)
  2. Obtain the program's dependencies. This program uses the SHA.jar file created above as well as the MySQL Connector/J library which can be found at the following location:

    http://www.mysql.com/products/connector/j/

  3. Extract the dependencies. For example:
    tar zxf mysql-connector-java-5.1.6.tar.gz

    This will produce a directory called mysql-connector-java-5.1.6 containing a file called mysql-connector-java-5.1.6-bin.jar which should be placed in the lib directory in the BioPSI_Suplimenter directory...

    mkdir lib
    cp mysql-connector-java-5.1.6/mysql-connector-java-5.1.6-bin.jar lib/

    The filenames in the above example will need adjusting, depending on the exact version of the library downloaded.

    The SHA.jar file needs copying from its build location:

    cp ../SHA/dist/SHA.jar lib/

    Alternatively, the external libraries can also be found in the following location:

    /biotek/dias/donaldson3/iRefIndex/External_libraries
  4. Compile the source code. In order to build the software on a computer which does not have the NetBeans IDE installed, copy the generic build file into the BioPSI_Suplimenter directory:
    cp Build_files/build.xml .

    It might be necessary to edit the build.xml file, changing the particular filename for the .jar file whose name begins with mysql-connector-java, since this name will change between versions of that library.

    Compile and create the .jar file as follows:

    ant jar

Creating the Database

Enter MySQL using a command like the following:

mysql -h <host> -u <admin> -p -A

The <admin> is the name of the user with administrative privileges. For example:

mysql -h myhost -u admin -p -A

Then create a database and user using commands of the following form:

create database <database>;
create user '<username>'@'%' identified by '<password>';
grant all privileges on <database>.* to '<username>'@'%';

For example, with <database> given as irefindex, <username> given as irefindex, and a substitution for <password>:

create database irefindex;
create user 'irefindex'@'%' identified by 'mysecretpassword';
grant all privileges on irefindex.* to 'irefindex'@'%';

Manual loading of data

In order to get the sequence of SEGUIDs not retrieved in later stages the table "seguid2sequence" has to be made as follows.

NoteNote

This process only applies when no previous database version exists with which SEGUID identifier consistency is required. For iRefIndex maintenance, this process is typically skipped.

  1. Obtain the file "seguidflat" from ftp://bioinformatics.anl.gov/seguid/ or (locally) /biotek/dias/donaldson3/DATA/SEGUID
  2. Use the following SQL commands to load this into a table:
create table seguid2sequence(
  seguid char(27) default '0',
  sequence varchar(49152) default 'NA',
  noaa int(11) default -1
) ENGINE=InnoDB DEFAULT CHARSET=latin1;

load data infile '......../seguidflat' into table seguid2sequence FIELDS TERMINATED BY '\t';

alter table seguid2sequence add index seguid(seguid);

update seguid2sequence set noaa=length(replace(sequence,' ',''));

Running BioPSI_Suplimenter

Please make sure that the manual loading of data was completed before this step, if appropriate.

Run the program as follows:

java -jar -Xms256m -Xmx768m build/jar/BioPSI_Suplimenter.jar &

In the dialogue box that appears, the following details must always be filled out:

Server
the <host> value specified when creating the database
Database
the <database> value specified when creating the database
User name
the <username> value specified above
Password
the <password> value specified above
Log file
the path to a log file where the program's output shall be written

Make sure that the log file will be written to a directory which already exists. For example:

mkdir /home/irefindex/logs/

The program will need to be executed a number of times for different activities, and these are described in separate sections below. For each one, select the corresponding menu item in the Program field shown in the dialogue.

Create tables

The SQL file field should refer to the Create_iRefIndex.sql file in the SQL directory within BioPSI_Suplimenter, and this should be a full path to the file. For example:

/home/irefindex/build/bioscape/bioscape/modules/interaction/Sabry/BioPSI_Suplimenter/SQL/Create_iRefIndex.sql

Click the OK button to create the tables.

Clone seguid

From iRefIndex 7.0, each ROG is consistent with the previous release. Therefore, the first operation when creating the new SEGUID table is to copy the SEGUID table from the previous release. This is included as an option in BioPSI_Suplimenter. The seguidannotation file is no longer parsed and if there is an updated version of this file from the SEGUID project it has to be used as an updating step.

NoteNote

A process for updating from a newer version of the seguidannotation file is not currently defined in BioPSI_Suplimenter.

When the "Clone SEGUID" option selected from the BioPSI_Suplimenter GUI, the SEGUID table is the source seguid table (so for the database beta7, the seguid table used would be beta6.seguid). The target database selected should not have a seguid table and if it has, this will throw an error.

Free and proprietary releases & clone seguid

iRefIndex has two subversions for every release, free and proprietary. Therefore, the ROG should not merely be consistent with the previous release: it has to be consistent between the free and proprietary versions of the release being made. Thus, the cloning will always be done using the earlier full/proprietary version as the source and the current full/proprietary as target. In other words, the proprietary version will be made first and then the free version. Once the proprietary version is made the SEGUID table of the free version is made by cloning the current proprietary version's SEGUID (not the previous version's).

Recreate SEGUID

The File field should refer to the seguidannotation file in the SEGUID subdirectory hierarchy. For example, given the following data directory...

/home/irefindex/data

...an appropriate value for the File field might be this:

/home/irefindex/data/SEGUID/2010-02-08/seguidannotation

For the following fields, indicate the locations of the corresponding files and directories similarly:

Unip_SP_file
uniprot_sprot.dat (from UniProt); for example:
/home/irefindex/data/UniProt/2010-02-08/uniprot_sprot.dat
Unip_Trm_file
uniprot_trembl.dat (from UniProt); for example:
/home/irefindex/data/UniProt/2010-02-08/uniprot_trembl.dat
unip_Isoform_file
uniprot_sprot_varsplic.fasta (from UniProt); for example:
/home/irefindex/data/UniProt/2010-02-08/uniprot_sprot_varsplic.fasta
Unip_Yeast_file
yeast.txt (in the yeast directory); for example:
/home/irefindex/data/yeast/2010-02-08/yeast.txt
Unip_Fly_file
fly.txt (in the fly directory); for example:
/home/irefindex/data/fly/2010-02-08/fly.txt
RefSeq DIR
The specific download directory for RefSeq; for example:
/home/irefindex/data/RefSeq/2010-02-08/
Fasta 4 PDB
pdbaa.fasta (from PDB); for example:
/home/irefindex/data/PDB/2010-02-08/pdbaa.fasta
Tax Table 4 PDB
tax.table (from PDB); for example:
/home/irefindex/data/PDB/2010-02-08/tax.table
Gene info file
gene_info.txt (in the geneinfo directory); for example:
/home/irefindex/data/geneinfo/2010-02-08/gene_info.txt
gene2Refseq
gene2refseq.txt (in the NCBI_Mappings directory); for example:
/home/irefindex/data/NCBI_Mappings/2010-02-08/gene2refseq.txt

Fill Bind info

The file fields should refer to the appropriate BIND files in the data directory hierarchy. For example, for Bind Ints file:

/home/irefindex/data/BIND/2010-02-08/20060525.ints.txt

To conveniently edit all file fields, you can edit the Base loc field, inserting the top-level data directory. For example:

/home/irefindex/data

In addition, the Date info can also be changed to indicate the common date directory name used by the data sources. For example:

2010-02-08

Be sure to check the final values of the file fields themselves before activating the operation.

Building iRef_PSI_XML2RDBMS

NoteNote

iRef_PSI_XML2RDBMS replaces StaxPSIXML as the PSI-MI XML parsing component in iRefIndex from release 8.0.

The iRef_PSI_XML2RDBMS.jar file needs to be obtained or built.

  1. Get the program's source code from this location:

    https://hfaistos.uio.no/cgi-bin/viewvc.cgi/bioscape/bioscape/modules/interaction/Sabry/iRef_PSI_XML2RDBMS/

    Using CVS with the appropriate CVSROOT setting, run the following command:

    cvs co bioscape/bioscape/modules/interaction/Sabry/iRef_PSI_XML2RDBMS

    The CVSROOT environment variable should be set to the following for this to work:

    export CVSROOT=:ext:<username>@hfaistos.uio.no:/mn/hfaistos/storage/cvsroot
    (The <username> should be replaced with your actual username.)
  2. Obtain the program's dependencies. This program uses the MySQL Connector/J library which can be found at the following location:

    http://www.mysql.com/products/connector/j/

    You may choose to refer to the download from the BioPSI_Suplimenter build process.
  3. Extract the dependencies:
    tar zxf mysql-connector-java-5.1.6.tar.gz

    This will produce a directory called mysql-connector-java-5.1.6 containing a file called mysql-connector-java-5.1.6-bin.jar which should be placed in the lib directory in the iRef_PSI_XML2RDBMS directory...

    mkdir lib
    cp mysql-connector-java-5.1.6/mysql-connector-java-5.1.6-bin.jar lib/

    You may instead choose to copy the library from the BioPSI_Suplimenter/lib directory:

    mkdir lib
    cp ../../BioPSI_Suplimenter/lib/mysql-connector-java-5.1.6-bin.jar lib/
    The filenames in the above examples will need adjusting, depending on the exact version of the library downloaded.
  4. Compile the source code. It might be necessary to edit the build.xml file, changing the particular filename for the .jar file whose name begins with mysql-connector-java, since this name will change between versions of that library. Compile and create the .jar file as follows:
    ant jar

Running iRef_PSI_XML2RDBMS

The software must first be configured using files provided in the config directory. This can be done using the make_config.py script provided:

python make_config.py <data_directory> <date_prefix> <log_directory>

For example:

python make_config.py /home/irefindex/data 2010-02-08 /home/irefindex/logs

This will produce new versions of the files described in detail below:

configFileList.txt
Edit the #CONFIG entries in order to refer to the locations of each of the individual configuration files. To remove a data source, remove the leading # character from the appropriate line.
config_X_SOURCE.xml
Each supplied configuration file has this form, where X is an arbitrary identifier which helps to distinguish between different configuration versions, and where SOURCE is a specific data source name such as one of the following:
  • BIOGRID
  • DIP
  • HPRD
  • IntAct
  • MINT
  • MIPS
  • MIPS_MPACT
  • OPHID

In each file (specified in configFileList.txt), a number of elements need to be defined within the locations element:

logger
The location of the log file to be created. If a log file already exists, the new information will be appended. In the event that the program throws more than 50000 exceptions, the errors will be continued in new files ordered by a numeric identifier specified at the end of each filename.
data
This the location of the PSI-XML files to be parsed. For example:
/home/irefindex/data/BioGrid/2010-02-08/textfiles/

This will directly also store the lastUpdate.obj file: this file contains successfully parsed files and allow the parsing to be processed from the last successful point in the event of a disruption. This also prevents accidental parsing of files more than once. If all files have to be parsed again (in the case of a new build, for example) lastUpdate.obj has to be deleted. If only certain files to be parsed again use the Exemptions option instead.

Exemptions
This gives the location of PSI-MI files to re-parsed, thus overriding the lastUpdate.obj control. This may be needed if information from certain files has to be parsed again, but this directory should be created and left empty initially.
mapper
This is the most important part of the parsing. This file defines where to obtain the data from the XML file and which field of the table in the database the data is destined for. The location of this file is typically within the source code distribution, and an absolute path should be specified. For example:
/home/irefindex/build/bioscape/bioscape/modules/interaction/Sabry/iRef_PSI_XML2RDBMS/mapper/Map25_INTACT_MINT_BIOGRID.xml

More information about the mapper is available in Readme_mapper.txt within the StaxPSIXML directory.

See also the documentation on the topic of adding sources to iRefIndex for details of writing new mapper configuration files.

For the MIPS and MIPS_MPACT sources, the following "specs" element needs to be changed:

filetype
A specific file should be specified. For MIPS, this should be something like the following:
mppi.xml

For MIPS_MPACT, the file should be something like this:

mpact-complete.psi25.xml

When all configuration files and mapper files are ready. Run the program:

java -jar -Xms128m -Xmx512m dist/iRef_PSI_XML2RDBMS.jar -f <config_file_list_file>

For the GUI version, omit the program arguments:

java -jar -Xms128m -Xmx512m dist/iRef_PSI_XML2RDBMS.jar

Validating the Results from iRef_PSI_XML2RDBMS

It is possible to validate the results of the parsing process by issuing the following queries against the database being prepared:

select name, count(uid) from int_source inner join int_db on int_source.source = int_db.id group by name;
select name, count(uid) from int_object inner join int_db on int_object.source = int_db.id group by name;

This will tabulate the interactions and interactors respectively for each data source. The values can then be compared to the totals written to the files produced by the SaxValidator program; these files can be found in the data directory hierarchy in a location resembling the following:

/home/irefindex/data/2010-02-08

Each validated data source should have a pair of files as illustrated by the following directory listing extract:

corum_interactions.txt
corum_interactors.txt
dip_interactions.txt
dip_interactors.txt
grid_interactions.txt
grid_interactors.txt

A convenient way of getting similar tabular summaries as those returned by the above queries is to run the following commands:

grep -e "total.*INTERACTION" /home/irefindex/data/2010-02-08/*.txt
grep -e "total.*INTERACTOR" /home/irefindex/data/2010-02-08/*.txt

Running BioPSI_Suplimenter (continued)

New for iRefIndex 7.0: when running the "ROG_ass + RIG_fill+ make Cy" process for free and proprietary releases there is a slight difference due to the ROG consistency issue. There is a checkbox in the GUI (in the red area) which is selected by default, which has to be deselected when making the free version.

Workaround for iRefIndex 7.0: the rig2rigid table needs to be copied from a previous build as follows:

create table rig2rigid as (select * from iRefindex_full_beta7.rig2rigid);

ROG_ass + RIG_fill+ make Cy

Note: when building the free version of the release, the UniProt_table, gene2refseq table, SEGUID table and Pre_build Eutils tables from the full version's database should be specified. (When building the full version, data has already been cloned from a previous release, and the tables in the same database should be specified.)

A table prepared from Web service data needs to be given for the Pre_build Eutils field. For example:

Pre_build Eutils
The name of the Web service data table; for example:
irefindex.eutils

It is possible to specify the location of a table residing in another database. As a consequence, the table will be copied into the target database.


All iRefIndex Pages

Follow this link for a listing of all iRefIndex related pages (archived and current).