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Short description:
Please summarise the application in a few sentences. Avoid links here. G-Mo.R-Se is a method aimed at using RNA-Seq short reads to build de novo gene models.
Software version:
Biological application domain(s) (Phylogenetics, Genomics, ...):
RNA-Seq alignment
Principal bioinformatics method(s) (Assembly, Mapping, ...):
Technology (Sanger, Illumina, 454, SOLiD, Ion Torrent, ...):
Interface (Command line, Web UI, Desktop GUI, SOAP WS, HTTP WS, API, QL):
Resource type (Command-line tool, Web application, Desktop application, Script, Suite, Workbench, Database portal, Workflow, Plug-in, Library, Web API, Web service, SPARQL endpoint):
G-Mo.R-Se is a method aimed at using RNA-Seq short reads to build de novo gene models. First, candidate exons are built directly from the positions of the reads mapped on the genome (without any ab initio assembly of the reads), and all the possible splice junctions between those exons are tested against unmapped reads : the testing of junctions is directed by the information available in the RNA-Seq dataset rather than a priori knowledge about the genome. Exons can thus be chained into stranded gene models. Demonstrated feasibility of this method on the grapevine genome using ~175 million Solexa/Illumina RNA-Seq reads from four tissues is documented on the home page. This allowed the identification of new exons (in known loci) and alternative splice forms, as well as entirely new loci.
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