All content

Search filter terms
Filter by category
Filter by type
Filter by tag
Filter by user
Filter by licence
Filter by group
Filter by wsdl
Filter by curation
Results per page:
Sort by:
Showing 1567 results. Use the filters on the left and the search box below to refine the results.
Type: Taverna 2

Workflow Pathways and Gene annotations for QTL region (7)

Thumb
This workflow searches for genes which reside in a QTL (Quantitative Trait Loci) region in the mouse, Mus musculus. The workflow requires an input of: a chromosome name or number; a QTL start base pair position; QTL end base pair position. Data is then extracted from BioMart to annotate each of the genes found in this region. The Entrez and UniProt identifiers are then sent to KEGG to obtain KEGG gene identifiers. The KEGG gene identifiers are then used to searcg for pathways in the KEGG path...

Created: 2009-11-19 | Last updated: 2012-09-07

Credits: User Paul Fisher

Uploader
Project Biovel

Workflow BioVeL ESW DIFF - ENM Statistical Workflow... (16)

Thumb
The ENM Statistical Difference Workflow (ESW DIFF) allows the computation of the extent and intensity of change in species potential distribution through computation of the differences between two raster layers using the R statistical environment (R Core Team 2013). The difference file is computed from two input files (in this case present projection and 2050 projection) coming from the Ecological Niche Modelling (ENM) Workflow (http://www.myexperiment.org/workflows/3355). The difference bet...

Created: 2013-07-08 | Last updated: 2016-06-22

Credits: User Robert Kulawik

Workflow EBI_InterProScan for Taverna 2 (2)

Thumb
Perform an InterProScan analysis of a protein sequence using the EBI’s WSInterProScan service (see http://www.ebi.ac.uk/Tools/webservices/services/interproscan). The input sequence to use and the user e-mail address are inputs, the other parameters for the analysis (see Job_params) are allowed to default. InterProScan searches a protein sequence against the protein family and domain signature databases integrated into InterPro (see http://www.ebi.ac.uk/interpro/). A set of matches to t...

Created: 2010-01-26 | Last updated: 2010-11-24

Credits: User Stian Soiland-Reyes User Katy Wolstencroft User Paolo User Hamish McWilliam

Attributions: Workflow EBI_InterProScan for Taverna 2 Workflow EBI InterproScan T2 Workflow EBI_InterProScan Workflow EBI InterProScan

Workflow EBI_InterProScan for Taverna 2 (2)

Thumb
Perform an InterProScan analysis of a protein sequence using the EBI’s WSInterProScan service (see http://www.ebi.ac.uk/Tools/webservices/services/interproscan). The input sequence to use and the user e-mail address are inputs, the other parameters for the analysis (see Job_params) are allowed to default. InterProScan searches a protein sequence against the protein family and domain signature databases integrated into InterPro (see http://www.ebi.ac.uk/interpro/). A set of matches to the s...

Created: 2010-01-26 | Last updated: 2010-01-26

Credits: User Stian Soiland-Reyes User Paolo User Katy Wolstencroft User Hamish McWilliam

Attributions: Workflow EBI InterproScan T2 Workflow EBI_InterProScan

Uploader
Project Biovel

Workflow Ecological niche modelling workflow (28)

Thumb
This workflow takes as input a file containing species occurrence points to create a model with the openModeller Web Service. Algorithm, environmental layers and mask are selected during the workflow. The model is tested (internal test and optional cross validation external test) and then projected one or more times. All points from the input file are used to create a single model, even if there are differences in the scientific names. Cross validation calculates the mean AUC. Model projectio...

Created: 2013-01-07 | Last updated: 2015-06-11

Credits: User Renato De Giovanni User Alan Williams User Robert Kulawik User Francisco Quevedo User Vhernand Network-member BioVeL

Attributions:

Workflow BioAID_ProteinDiscovery (8)

Thumb
The workflow extracts protein names from documents retrieved from MedLine based on a user Query (cf Apache Lucene syntax). The protein names are filtered by checking if there exists a valid UniProt ID for the given protein name.

Created: 2010-05-10 | Last updated: 2013-08-16

Credits: User Marco Roos Network-member AID

Uploader

Workflow Lymphoma type prediction based on microar... (7)

Thumb
Scientific value Using gene-expression patterns associated with DLBCL and FL to predict the lymphoma type of an unknown sample. Using SVM (Support Vector Machine) to classify data, and predicting the tumor types of unknown examples. Steps Querying training data from experiments stored in caArray. Preprocessing, or normalize the microarray data. Adding training and testing data into SVM service to get classification result.

Created: 2010-05-11 | Last updated: 2010-05-11

Credits: User Wei Tan User Ravi User Stian Soiland-Reyes

Uploader
Project Biovel

Workflow Data Refinement Workflow v17 (17)

Thumb
The aim of the (Taxonomic) Data Refinement Workflow is to provide a streamlined workflow environment for preparing observational and specimen data sets for use in scientific analysis on the Taverna platform. The workflow has been designed in a way that, • accepts input data in a recognized format, but originating from various sources (e.g. services, local user data sets), • includes a number of graphical user interfaces to view and interact with the data, • the output of each part of the work...

Created: 2012-04-11 | Last updated: 2014-12-17

Credits: User Cherian Mathew

Workflow What is Paget's disease sparql query example (3)

Thumb
SELECT distinct ?s1 FROM <http://atlas.bio2rdf.org/sparql> WHERE {   ?s1 ?p1 ?o1 .   ?o1 bif:contains "paget" .   FILTER( regex(?s1, "omim")   OR regex(?s1, "geneid") OR regex(?s1, "uniprot")) }   followed by SELECT ?type1, count(*) FROM <http://localhost:8890/sparql> WHERE {   ?s1 ?p1 ?o1 .   ?o1 bif:contains "paget" .   ?s1  

Created: 2009-01-20

Credits: User Francois Belleau

Workflow Compare genome, extract proteins which are... (1)

Thumb
  Takes GI number for source (non-pathogenic) and target (pathogneic) genomes, extracts list of all proteins from each genome using GenBank database. Outputs prtoeins in FastA format. Creates database from source proteins using formatdb (locally installed) and blasts (local installed) proteins from target against this database. Extracts protens which are unique (no blast hits) to the target (pathogenic) genome based on eValue set by user. Takes unique proteins from target and blasts aga...

Created: 2010-03-19 | Last updated: 2010-03-19

Credits: User Ian Laycock Network-member nclteamc

Attributions: Workflow fetchEnsemblSeqsAndBlast Workflow NCBI Gi to Kegg Pathways Workflow color_pathway_by_objects

Results per page:
Sort by: