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 16 results. Use the filters on the left and the search box below to refine the results.
Tag: tree

Workflow Workflow for Protein Sequence Analysis (1)

Thumb
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.

Created: 2008-01-09 | Last updated: 2008-01-09

Credits: User M.B.Monteiro

Attributions: Workflow BLAST using DDBJ service Workflow Simplify a BLAST text file Workflow conditional branch

Workflow Protein_search_fetch_align_tree (2)

Thumb
An implmentation of the classical sequence analysis workflow: Find homologues (sequence similarity search) Fetch homologues Align homologues (multiple sequence alignment) Produce phylogenetic tree In this implementation the EBI webservices are used: WU-BLAST (WSWUBlast) blastp vs. UniProtKB dbfetch (WSDbfetch) ClustalW (WSClustalW2) ClustalW (WSClustalW2) Note: this version does not add the inital query sequence to the alignment, and so is most useful when used with the identifers...

Created: 2009-04-07

Credits: User Hamish McWilliam

Attributions: Workflow EBI_ClustalW2 Workflow EBI_ClustalW2_phylogentic_tree Workflow EBI_dbfetch_fetchBatch Workflow EBI_WU-BLAST

Workflow SifterWorkflow_Prod_Neu (2)

Thumb
Phylogenomic workflow with SIFTER. The workflow first runs an iterative Blast search against the RefSeq database (Pruitt et al. 2007) (only fully sequenced organisms) and filters the results to get putative orthologous and in-paralogous proteins. These sequences are used to build a multiple alignment with MAFFT (Katoh et al. 2005). After filtering out alignment columns with more than 60% gaps, a phylogenetic tree is build. If there are less than 20 proteins in the alignment Phyml (Guindon an...

Created: 2007-11-23 | Last updated: 2008-04-29

Credits: User Anika Joecker

Workflow EBI_ClustalW2_phylogentic_tree (2)

Thumb
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).

Created: 2009-04-07

Credits: User Hamish McWilliam

Workflow EBI_ClustalW_alignment_tree (2)

Thumb
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.

Created: 2008-05-31 | Last updated: 2010-12-03

Credits: User Hamish McWilliam

Attributions: Workflow EBI_ClustalW2 Workflow EBI_ClustalW2_phylogentic_tree

Workflow fetch_fasta (1)

Thumb
This work flow is designed to take an EMBL file containing the genomic data for an identified bacterium. From this information the workflow can determine whether or not that this strain is an MRSA type of bug. This can be determined based on the MecA profile of the given strain. Blast is utilised to find a relationship with given proteins and that of know S. aureus strains. This phylogenic output is generated from a ClustalW algorithm that plots a phylogenic tree. The output is prese...

Created: 2009-03-20 | Last updated: 2009-03-20

Credits: User Jumblejumble

Workflow M_Fetch_e-T_phylo_boot - (BETA) (1)

Thumb
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.

Created: 2010-03-10 | Last updated: 2010-03-10

Credits: User Achille Zappa User Hamish McWilliam

Uploader
Project Biovel

Workflow Bayesian Phylogenetic Infererence: Input R... (3)

Thumb
BioVeL – Biodiversity Virtual e-Laboratory Workflow Documentation Name:Perform Short Bayesian Phylogenetic Inference Capacities Programme of Framework 7: EC e-Infrastructure Programme – e-Science Environments - INFRA-2011-1.2.1 Grant Agreement No: 283359 Project Co-ordinator: Mr Alex Hardisty Project Homepage: [http://www.biovel.eu][1] [1]: http://www.biovel.eu ## 1 Description The Pack contain 3 workflows that perform and validate bayesian phylogenetic i...

Created: 2013-02-20 | Last updated: 2015-06-12

Credits: User Saverio Vicario User Giacinto Donvito User Bachirb

Uploader
Project Biovel

Workflow Bayesian Phylogenetic Infererence: Evaluat... (7)

Thumb
BioVeL – Biodiversity Virtual e-Laboratory Workflow Documentation Name:Perform Short Bayesian Phylogenetic Inference Capacities Programme of Framework 7: EC e-Infrastructure Programme – e-Science Environments - INFRA-2011-1.2.1 Grant Agreement No: 283359 Project Co-ordinator: Mr Alex Hardisty Project Homepage: [http://www.biovel.eu][1] [1]: http://www.biovel.eu ## 1 Description The Pack contain 3 workflows that perform and validate bayesian phylogenetic i...

Created: 2013-02-20 | Last updated: 2015-06-12

Credits: User Saverio Vicario User Giacinto Donvito User Bachirb

Workflow EMBL-EBI ClustalW2_SOAP (2)

Thumb
Perform a ClustalW2 alignment of protein sequences using the EMBL-EBI’s ClustalW2 (SOAP) service (see http://www.ebi.ac.uk/Tools/webservices/services/msa/clustalw2_soap). This workflow uses the new EBI services, which are asynchronous and require looping over the nested workflow (Status) until the workflow has finished. Many of the EBI services now work in this way, so you can use this workflow as an example of the invocation pattern and looping configuration.

Created: 2011-01-17 | Last updated: 2013-01-30

Credits: User Katy Wolstencroft User Hamish McWilliam

Attributions: Workflow EMBL-EBI ClustalW2 (SOAP) Workflow EBI_ClustalW2

Results per page:
Sort by: