This workflow performs a 'multiple' multiple sequence alignment and phylogenetic analysis.
/* Output: result; string with description of each sequence in FASTA format
*/
// Extract the FASTA description from each sequence
import java.util.regex.Pattern;
import java.util.regex.Matcher;
StringBuffer temp = new StringBuffer();
String information="";
// regular expression to extract only the sequence description
Pattern pattern = Pattern.compile (">(\\w+.*)\\s");
Matcher matcher = pattern.matcher(Sequences);
while(matcher.find()){
information=matcher.group(1);
temp.append(information + "\n");
}
// Output sequence description
String result = temp.toString();
Sequences
result
Given a sequence or sequence entry identifer return the sequence in fasta format.
If a sequence identifier is input the EBI's WSDbfetch web service (see http://www.ebi.ac.uk/Tools/webservices/services/dbfetch) is used to retrive the sequence in fasta format. Otherwise the input is assumed to be a sequence and if passed through the Soaplab EMBOSS seqret service to force the sequence into fasta format.
Given a sequence or sequence entry identifer (e.g. uniprot:wap_rat), return the sequence in fasta format.
If a sequence identifier is input the EBI's WSDbfetch web service (see http://www.ebi.ac.uk/Tools/webservices/services/dbfetch) is used to retrive the sequence in fasta format. Otherwise the input is assumed to be a sequence and if passed through the Soaplab EMBOSS seqret service to force the sequence into fasta format.
Fails if the workflow input was a sequence (i.e. is an identifer).
org.embl.ebi.escience.scuflworkers.java.FailIfTrue
Fails if the workflow input is an identifier (i.e. is an actual sequence).
org.embl.ebi.escience.scuflworkers.java.FailIfFalse
//StringBuffer in = new StringBuffer();
String out = in.toString();
in
out
Return true if the input is a sequence or false if the input is a sequence identifer (e.g. uniprot:wap_rat).
lineLen = sequence.indexOf("\n");
if(lineLen < 1) {
lineLen = sequence.length();
}
if(!sequence.startsWith(">") ) {
is_sequence = "false";
} else {
is_sequence = "true";
}
sequence
is_sequence
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
org.embl.ebi.escience.scuflworkers.java.StringListMerge
net.sourceforge.taverna.scuflworkers.ncbi.ProteinFastaWorker
,
org.embl.ebi.escience.scuflworkers.java.SplitByRegex
Either an actual sequence or an entry identifer.
Completed
Fail_if_sequence
Nested_Workflow
Scheduled
Running
Completed
Fail_if_identifer
Beanshell
Scheduled
Running
Given a set of sequences perform an multiple sequence alignment and from the multiple alignment derive a phylogenetic tree. The popular ClustalW program (see http://www.clustal.org/), as implemented in the EBI's WSClustalW2 service (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2) is used to perform both tasks.
achille.zappa@istge.it
Given a set of sequences perform an multiple sequence alignment and from the multiple alignment derive a phylogenetic tree. The popular ClustalW program (see http://www.clustal.org/), as implemented in the EBI's WSClustalW2 service (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2) is used to perform both tasks.
Create a phylogenetic tree from the alignment.
Create a Neighbor-joining phylogenetic tree, with Kimura distance corrections, from a sequence alignment using the EBI's WSClustalW2 service (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2).
org.embl.ebi.escience.scuflworkers.java.ByteArrayToString
org.embl.ebi.escience.scuflworkers.java.ByteArrayToString
org.embl.ebi.escience.scuflworkers.java.ByteArrayToString
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
sequence
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Get the results of a job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#poll_jobid_type)
toolph
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
poll
Get the results of a job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#poll_jobid_type)
toolnj
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
poll
Get the results of a job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#poll_jobid_type)
tooloutput
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
poll
nj
1
1
0
tree
nj
1
1
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Submit a ClustalW analysis job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#runclustalw2_params_content)
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
runClustalW2
Wait for job to finish.
Check status of job.
If job not finished fail.
org.embl.ebi.escience.scuflworkers.java.FailIfFalse
Map job status into true/false is done flag
if(job_status.equals("DONE")) {
is_done = "true";
} else {
is_done = "false";
}
job_status
is_done
Get the status of a submited job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#checkstatus_jobid)
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
checkStatus
EBI job identifier for the job to check.
Status of the job.
A sequence alignment in an appropriate format (e.g. fasta, clustalw or MSF).
User's e-mail address.
EBI job identifier.
Output from the ClustalW program. Useful for diagnosing problems.
The phylogenetic tree in PHYLIP format, for use with tree drawing tools.
Description of the tree.
Completed
EBI_ClustalW2_poll_job
Get_output
Scheduled
Running
Completed
EBI_ClustalW2_poll_job
Get_phylip_tree_result
Scheduled
Running
Completed
EBI_ClustalW2_poll_job
Get_nj_tree_result
Scheduled
Running
Align the sequences.
Perform a ClustalW multiple sequence alignment using the EBI’s WSClustalW2 service (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2). The set of sequences to align are the input, for the other parameters see Job_params.
org.embl.ebi.escience.scuflworkers.java.ByteArrayToString
org.embl.ebi.escience.scuflworkers.java.ByteArrayToString
org.embl.ebi.escience.scuflworkers.java.ByteArrayToString
sequence
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
full
aln1
blosum
1
alignment
1
1
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Submit a ClustalW analysis job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#runclustalw2_params_content)
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
runClustalW2
Get the results of a job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#poll_jobid_type)
tooloutput
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
poll
Get the results of a job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#poll_jobid_type)
toolaln
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
poll
Get the results of a job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#poll_jobid_type)
tooldnd
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
poll
Check for job status, and wait if job not finished.
Check status of job.
If job not finished fail.
org.embl.ebi.escience.scuflworkers.java.FailIfFalse
Map job status into true/false is done flag
if(job_status.equals("DONE")) {
is_done = "true";
} else {
is_done = "false";
}
job_status
is_done
Get the status of a submited job (see http://www.ebi.ac.uk/Tools/webservices/services/clustalw2#checkstatus_jobid)
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSClustalW2.wsdl
checkStatus
EBI job identifier for the job to check.
Status of the job.
Sequences to align (fasta format recommended).
User e-mail address.
The alignment in ClustalW format.
Guide tree used to produce the final alignment.
text/xml
EBI job identifier
Completed
EBI_ClustalW2_poll_job
Get_alignment_result
Scheduled
Running
Completed
EBI_ClustalW2_poll_job
Get_guide_tree_result
Scheduled
Running
Completed
EBI_ClustalW2_poll_job
Get_output_result
Scheduled
Running
Input set of sequences to be aligned.
User e-mail address.
Multiple sequence alignment in ClustalW format.
Neighbour-joining phylogenetic tree in PHYLIP format.
Perform a multiple sequence alignment using T-Coffee (see http://www.tcoffee.org/). The EBI's WSToffee web service (see http://www.ebi.ac.uk/Tools/webservices/services/tcoffee) ise used.
achille.zappa@istge.it
Perform a multiple sequence alignment using T-Coffee (see http://www.tcoffee.org/). The EBI's WSToffee web service (see http://www.ebi.ac.uk/Tools/webservices/services/tcoffee) ise used.
Add type information to input.
sequence
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Convert byte[] from service into string.
org.embl.ebi.escience.scuflworkers.java.ByteArrayToString
Wrap input data in list.
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Get the results of a job (see http://www.ebi.ac.uk/Tools/webservices/services/tcoffee#poll_jobid_type)
tooloutput
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSTCoffee.wsdl
poll
Submit a T-Coffee analysis job (see http://www.ebi.ac.uk/Tools/webservices/services/tcoffee#runtcoffee_params_content)
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSTCoffee.wsdl
runTCoffee
T-Coffee parameters
1
blosum
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Check job status
Check WSTCoffee job status.
Fail if job not done.
org.embl.ebi.escience.scuflworkers.java.FailIfFalse
Map job status to true/false
if(job_status.equals("DONE")) {
is_done = "true";
} else {
is_done = "false";
}
job_status
is_done
Get the status of a submited job (see http://www.ebi.ac.uk/Tools/webservices/services/tcoffee#checkstatus_jobid)
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSTCoffee.wsdl
checkStatus
EBI job identifier.
Job status
User e-mail address.
EBI job identifer.
T-Coffee alignment in a ClustalW style format.
Completed
EBI_TCoffee_poll_job
Get_alignment
Scheduled
Running
Perform a multiple sequence alignment using the MUSCLE tool (see http://www.drive5.com/muscle/). The EBI's WSMuscle web service (see http://www.ebi.ac.uk/Tools/webservices/services/muscle) is used.
Perform a multiple sequence alignment using the MUSCLE tool (see http://www.drive5.com/muscle/). The EBI's WSMuscle web service (see http://www.ebi.ac.uk/Tools/webservices/services/muscle) is used.
Convert byte[] from service into srting.
org.embl.ebi.escience.scuflworkers.java.ByteArrayToString
Parameters for MUSCLE.
wsf
tree2
3
achille.zappa@istge.it
1
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Wrap input data in list
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Add type to input sequences
sequence
org.embl.ebi.escience.scuflworkers.java.XMLInputSplitter
Submit a MUSCLE analysis job (see http://www.ebi.ac.uk/Tools/webservices/services/muscle#runmuscle_params_content)
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSMuscle.wsdl
runMuscle
Get the results of a job (see http://www.ebi.ac.uk/Tools/webservices/services/muscle#poll_jobid_type)
tooloutput
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSMuscle.wsdl
poll
Check status of job.
Check MUSCLE job status.
Convert status code into true/false.
if(job_status.equals("DONE")) {
is_done = "true";
} else {
is_done = "false";
}
job_status
is_done
Fail if job not complete.
org.embl.ebi.escience.scuflworkers.java.FailIfFalse
Get the status of a submited job (see http://www.ebi.ac.uk/Tools/webservices/services/muscle#checkstatus_jobid)
http://www.ebi.ac.uk/Tools/webservices/wsdl/WSMuscle.wsdl
checkStatus
EBI job identifer for MUSCLE job.
Job status
EBI job identifier.
Alignment produced by MUSCLE, in fasta format.
Completed
EBI_MUSCLE_poll_job
Get_alignment
Scheduled
Running
Protein phylogeny by maximum likelihood
http://www.ebi.ac.uk/soaplab/services/phylogeny_molecular_sequence.fproml
Protein phylogeny by maximum likelihood
http://www.ebi.ac.uk/soaplab/services/phylogeny_molecular_sequence.fproml
Multiple alignment program - interface to
ClustalW program
http://www.ebi.ac.uk/soaplab/emboss4/services/alignment_multiple.emma
Protein phylogeny by maximum likelihood
http://www.ebi.ac.uk/soaplab/services/phylogeny_molecular_sequence.fproml
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
Phylogenies from distance matrix by N-J or
UPGMA method
n
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_distance_matrix.fneighbor
Protein distance algorithm
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_molecular_sequence.fprotdist
Plots a cladogram- or phenogram-like rooted
tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawgram
Plots an unrooted tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawtree
Enter a novel protein sequence. e.g.
AITRRVACLDGVNTATNAACCALFAVRDDIQQNL
FDGGECGEEVHESLRLTFHDAIGISPSLAATGKFGG
GGADGSIMIFDDIEPNFHANNGVDEIINAQKPFVAK
HNMTAGDFIQFAGAVGVSNCPGAPQLSFFLGRPA
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
Protein distance algorithm
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_molecular_sequence.fprotdist
Plots a cladogram- or phenogram-like rooted
tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawgram
Plots an unrooted tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawtree
Phylogenies from distance matrix by N-J or
UPGMA method
u
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_distance_matrix.fneighbor
Enter a novel protein sequence. e.g.
AITRRVACLDGVNTATNAACCALFAVRDDIQQNL
FDGGECGEEVHESLRLTFHDAIGISPSLAATGKFGG
GGADGSIMIFDDIEPNFHANNGVDEIINAQKPFVAK
HNMTAGDFIQFAGAVGVSNCPGAPQLSFFLGRPA
Protein phylogeny by maximum likelihood
http://www.ebi.ac.uk/soaplab/services/phylogeny_molecular_sequence.fproml
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
Plots a cladogram- or phenogram-like rooted
tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawgram
Plots an unrooted tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawtree
Protein distance algorithm
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_molecular_sequence.fprotdist
Phylogenies from distance matrix by N-J or
UPGMA method
u
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_distance_matrix.fneighbor
Enter a novel protein sequence. e.g.
AITRRVACLDGVNTATNAACCALFAVRDDIQQNL
FDGGECGEEVHESLRLTFHDAIGISPSLAATGKFGG
GGADGSIMIFDDIEPNFHANNGVDEIINAQKPFVAK
HNMTAGDFIQFAGAVGVSNCPGAPQLSFFLGRPA
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
Plots a cladogram- or phenogram-like rooted
tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawgram
Protein distance algorithm
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_molecular_sequence.fprotdist
Plots an unrooted tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawtree
Phylogenies from distance matrix by N-J or
UPGMA method
n
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_distance_matrix.fneighbor
Enter a novel protein sequence. e.g.
AITRRVACLDGVNTATNAACCALFAVRDDIQQNL
FDGGECGEEVHESLRLTFHDAIGISPSLAATGKFGG
GGADGSIMIFDDIEPNFHANNGVDEIINAQKPFVAK
HNMTAGDFIQFAGAVGVSNCPGAPQLSFFLGRPA
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
Protein distance algorithm
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_molecular_sequence.fprotdist
Phylogenies from distance matrix by N-J or
UPGMA method
u
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_distance_matrix.fneighbor
Plots an unrooted tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawtree
Plots a cladogram- or phenogram-like rooted
tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawgram
Enter a novel protein sequence. e.g.
AITRRVACLDGVNTATNAACCALFAVRDDIQQNL
FDGGECGEEVHESLRLTFHDAIGISPSLAATGKFGG
GGADGSIMIFDDIEPNFHANNGVDEIINAQKPFVAK
HNMTAGDFIQFAGAVGVSNCPGAPQLSFFLGRPA
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
Protein distance algorithm
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_molecular_sequence.fprotdist
Plots an unrooted tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawtree
Phylogenies from distance matrix by N-J or
UPGMA method
u
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_distance_matrix.fneighbor
Plots a cladogram- or phenogram-like rooted
tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawgram
Enter a novel protein sequence. e.g.
AITRRVACLDGVNTATNAACCALFAVRDDIQQNL
FDGGECGEEVHESLRLTFHDAIGISPSLAATGKFGG
GGADGSIMIFDDIEPNFHANNGVDEIINAQKPFVAK
HNMTAGDFIQFAGAVGVSNCPGAPQLSFFLGRPA
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
Plots a cladogram- or phenogram-like rooted
tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawgram
Protein distance algorithm
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_molecular_sequence.fprotdist
Plots an unrooted tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawtree
Phylogenies from distance matrix by N-J or
UPGMA method
n
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_distance_matrix.fneighbor
Enter a novel protein sequence. e.g.
AITRRVACLDGVNTATNAACCALFAVRDDIQQNL
FDGGECGEEVHESLRLTFHDAIGISPSLAATGKFGG
GGADGSIMIFDDIEPNFHANNGVDEIINAQKPFVAK
HNMTAGDFIQFAGAVGVSNCPGAPQLSFFLGRPA
This workflow performs a generic protein sequence analysis. In order to do that a novel protein sequence enters into the software along with a list of known protein identifiers chosen by the biologist to perform a homology search, followed by a multiple sequence alignment and finally a phylogenetic analysis.
Protein distance algorithm
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_molecular_sequence.fprotdist
Phylogenies from distance matrix by N-J or
UPGMA method
n
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_distance_matrix.fneighbor
Plots a cladogram- or phenogram-like rooted
tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawgram
Plots an unrooted tree diagram
http://www.ebi.ac.uk/soaplab/emboss4/services/phylogeny_tree_drawing.fdrawtree
Enter a novel protein sequence. e.g.
AITRRVACLDGVNTATNAACCALFAVRDDIQQNL
FDGGECGEEVHESLRLTFHDAIGISPSLAATGKFGG
GGADGSIMIFDDIEPNFHANNGVDEIINAQKPFVAK
HNMTAGDFIQFAGAVGVSNCPGAPQLSFFLGRPA
Completed
Nested_Workflow3
Nested_Workflow
Scheduled
Running
Completed
Nested_Workflow
Nested_Workflow1
Scheduled
Running
Completed
Nested_Workflow1
Muscle
Scheduled
Running
Completed
Nested_Workflow4
Nested_Workflow7
Scheduled
Running
Completed
Nested_Workflow7
Nested_Workflow8
Scheduled
Running
Completed
Nested_Workflow8
ClustalW
Scheduled
Running
Completed
Nested_Workflow5
Nested_Workflow2
Scheduled
Running
Completed
Nested_Workflow2
Nested_Workflow11
Scheduled
Running
Completed
Nested_Workflow11
Clustal_Tcoffee
Scheduled
Running
Completed
Nested_Workflow6
Nested_Workflow9
Scheduled
Running
Completed
Nested_Workflow9
Nested_Workflow10
Scheduled
Running