This workflow takes in probesets from and AffyMetrix micorarray experiment and returns: the genes in the QTL; gene start and end positions; chromosome where genes reside; ensembl trasncripts; SwissProt ids; affy probeset identifiers for chips Mouse430_2 and Mouse430a_2.
mus_musculus
org.embl.ebi.escience.scuflworkers.java.StringStripDuplicates
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringConcat
org.embl.ebi.escience.scuflworkers.java.SplitByRegex
org.embl.ebi.escience.scuflworkers.java.StringStripDuplicates
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringStripDuplicates
kegg pathway
org.embl.ebi.escience.scuflworkers.java.SplitByRegex
\n
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringStripDuplicates
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringStripDuplicates
org.embl.ebi.escience.scuflworkers.java.StringListMerge
String[] split = input.split("\n");
Vector nonEmpty = new Vector();
for (int i = 0; i < split.length; i++)
{
String trimmed = split[i].trim();
nonEmpty.add(trimmed);
}
String output = "";
for (int i = 0; i < nonEmpty.size(); i++)
{
output = output + "uniprot:" + (String) (nonEmpty.elementAt(i) + "\n");
}
input
output
String[] split = input.split("\n");
Vector nonEmpty = new Vector();
for (int i = 0; i < split.length; i++){
if (!(split[i].equals("")))
{
nonEmpty.add(split[i].trim());
}
}
String[] non_empty = new String[nonEmpty.size()];
for (int i = 0; i < non_empty.length; i ++)
{
non_empty[i] = nonEmpty.elementAt(i);
}
String output = "";
for (int i = 0; i < non_empty.length; i++)
{
output = output + (String) (non_empty[i] + "\n");
}
input
output
String[] split = input.split("\n");
Vector nonEmpty = new Vector();
for (int i = 0; i < split.length; i++){
if (!(split[i].equals("")))
{
nonEmpty.add(split[i].trim());
}
}
String[] non_empty = new String[nonEmpty.size()];
for (int i = 0; i < non_empty.length; i ++)
{
non_empty[i] = nonEmpty.elementAt(i);
}
String output = "";
for (int i = 0; i < non_empty.length; i++)
{
output = output + (String) (non_empty[i] + "\n");
}
input
output
String[] split = input.split("\n");
Vector nonEmpty = new Vector();
for (int i = 0; i < split.length; i++){
if (!(split[i].equals("")))
{
nonEmpty.add(split[i].trim());
}
}
String[] non_empty = new String[nonEmpty.size()];
for (int i = 0; i < non_empty.length; i ++)
{
non_empty[i] = nonEmpty.elementAt(i);
}
String output = "";
for (int i = 0; i < non_empty.length; i++)
{
output = output + (String) (non_empty[i] + "\n");
}
input
output
String[] split = input.split("\n");
Vector nonEmpty = new Vector();
for (int i = 0; i < split.length; i++)
{
String trimmed = split[i].trim();
String[] trimmedSplit = trimmed.split("\t");
if (trimmedSplit.length >= 2)
{
nonEmpty.add(trimmedSplit[1].trim());
}
}
String output = "";
for (int i = 0; i < nonEmpty.size(); i++)
{
output = output + (String) (nonEmpty.elementAt(i) + "\n");
}
input
output
String[] split = input.split("\n");
Vector nonEmpty = new Vector();
for (int i = 0; i < split.length; i++){
if (!(split[i].equals("")))
{
nonEmpty.add(split[i].trim());
}
}
String[] non_empty = new String[nonEmpty.size()];
for (int i = 0; i < non_empty.length; i ++)
{
non_empty[i] = nonEmpty.elementAt(i);
}
String output = "";
for (int i = 0; i < non_empty.length; i++)
{
output = output + (String) (non_empty[i] + "\n");
}
input
output
String[] split = input.split("\n");
Vector nonEmpty = new Vector();
for (int i = 0; i < split.length; i++)
{
String trimmed = split[i].trim();
nonEmpty.add(trimmed);
}
String output = "";
for (int i = 0; i < nonEmpty.size(); i++)
{
output = output + "ncbi-geneid:" + (String) (nonEmpty.elementAt(i) + "\n");
}
input
output
result = ensemblGeneId + "," + entrezGeneId + "," + externalGeneId + "," + chromoName + "," + geneStart + "," + geneEnd + "," + ensemblTranscriptId + "," + uniprotAcc;
ensemblGeneId
entrezGeneId
externalGeneId
chromoName
geneStart
geneEnd
ensemblTranscriptId
uniprotAcc
result
Retrieves the current databases from ENSEMBL for a species
http://phoebus.cs.man.ac.uk:1977/axis/services/qtl_analysis.getcurrentdatabase
http://soap.genome.jp/KEGG.wsdl
bconv
http://soap.genome.jp/KEGG.wsdl
bconv
http://soap.genome.jp/KEGG.wsdl
btit
http://soap.genome.jp/KEGG.wsdl
binfo
This workflow removes any null values from a list of strings
This workflow removes any null values from a list of strings
\n
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.StringListMerge
org.embl.ebi.escience.scuflworkers.java.SplitByRegex
String[] split = input.split("\n");
Vector nonEmpty = new Vector();
for (int i = 0; i < split.length; i++){
if (!(split[i].equals("")))
{
nonEmpty.add(split[i].trim());
}
}
String[] non_empty = new String[nonEmpty.size()];
for (int i = 0; i < non_empty.length; i ++)
{
non_empty[i] = nonEmpty.elementAt(i);
}
String output = "";
for (int i = 0; i < non_empty.length; i++)
{
output = output + (String) (non_empty[i] + "\t");
}
input
output
String pathway_id_input = pathway_ids.trim();
String gene_id_input = gene_id.trim();
String output = "";
output = gene_id_input + "\t" + pathway_id_input;
pathway_ids
gene_id
output
http://soap.genome.jp/KEGG.wsdl
btit
http://soap.genome.jp/KEGG.wsdl
get_pathways_by_genes
http://phoebus.cs.man.ac.uk:8081/axis/EnsemblListner.jws?wsdl
lister
Mus musculus genes (NCBIM37)