Determination and validation of principal gene products

Michael L. Tress; Jan Jaap Wesselink; Adam Frankish; Gonzalo López; Nick Goldman; Ari Löytynoja; Tim Massingham; Fabio Pardi; Simon Whelan; Jennifer Harrow; Alfonso Valencia

doi:10.1093/bioinformatics/btm547

Determination and validation of principal gene products

Michael L. Tress, Jan Jaap Wesselink, Adam Frankish, Gonzalo López, Nick Goldman, Ari Löytynoja, Tim Massingham, Fabio Pardi, Simon Whelan, Jennifer Harrow, Alfonso Valencia

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Motivation: Alternative splicing has the potential to generate a wide range of protein isoforms. For many computational applications and for experimental research, it is important to be able to concentrate on the isoform that retains the core biological function. For many genes this is far from clear. Results: We have combined five methods into a pipeline that allows us to detect the principal variant for a gene. Most of the methods were based on conservation between species, at the level of both gene and protein. The five methods used were the conservation of exonic structure, the detection of non-neutral evolution, the conservation of functional residues, the existence of a known protein structure and the abundance of vertebrate orthologues. The pipeline was able to determine a principal isoform for 83% of a set of well-annotated genes with multiple variants.

Original language	English
Pages (from-to)	11-17
Number of pages	7
Journal	Bioinformatics
Volume	24
Issue number	1
DOIs	https://doi.org/10.1093/bioinformatics/btm547
State	Published - 1 Jan 2008
Externally published	Yes

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title = "Determination and validation of principal gene products",

abstract = "Motivation: Alternative splicing has the potential to generate a wide range of protein isoforms. For many computational applications and for experimental research, it is important to be able to concentrate on the isoform that retains the core biological function. For many genes this is far from clear. Results: We have combined five methods into a pipeline that allows us to detect the principal variant for a gene. Most of the methods were based on conservation between species, at the level of both gene and protein. The five methods used were the conservation of exonic structure, the detection of non-neutral evolution, the conservation of functional residues, the existence of a known protein structure and the abundance of vertebrate orthologues. The pipeline was able to determine a principal isoform for 83\% of a set of well-annotated genes with multiple variants.",

author = "Tress, \{Michael L.\} and Wesselink, \{Jan Jaap\} and Adam Frankish and Gonzalo L{\'o}pez and Nick Goldman and Ari L{\"o}ytynoja and Tim Massingham and Fabio Pardi and Simon Whelan and Jennifer Harrow and Alfonso Valencia",

note = "Funding Information: This work was funded by the BioSapiens Network of Excellence (grant number LSHG-CT-2003-503265) and by the National Institute of Bioinformatics (www.inab.org), a platform of {\textquoteleft}Genoma Espa{\~n}a{\textquoteright}. NG thanks the Wellcome Trust for financial support, and IBM for the grant of an IBM eServer BladeCenter to the EMBL-EBI for use in its research work.",

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doi = "10.1093/bioinformatics/btm547",

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T1 - Determination and validation of principal gene products

AU - Tress, Michael L.

AU - Wesselink, Jan Jaap

AU - Frankish, Adam

AU - López, Gonzalo

AU - Goldman, Nick

AU - Löytynoja, Ari

AU - Massingham, Tim

AU - Pardi, Fabio

AU - Whelan, Simon

AU - Harrow, Jennifer

AU - Valencia, Alfonso

N1 - Funding Information: This work was funded by the BioSapiens Network of Excellence (grant number LSHG-CT-2003-503265) and by the National Institute of Bioinformatics (www.inab.org), a platform of ‘Genoma España’. NG thanks the Wellcome Trust for financial support, and IBM for the grant of an IBM eServer BladeCenter to the EMBL-EBI for use in its research work.

PY - 2008/1/1

Y1 - 2008/1/1

N2 - Motivation: Alternative splicing has the potential to generate a wide range of protein isoforms. For many computational applications and for experimental research, it is important to be able to concentrate on the isoform that retains the core biological function. For many genes this is far from clear. Results: We have combined five methods into a pipeline that allows us to detect the principal variant for a gene. Most of the methods were based on conservation between species, at the level of both gene and protein. The five methods used were the conservation of exonic structure, the detection of non-neutral evolution, the conservation of functional residues, the existence of a known protein structure and the abundance of vertebrate orthologues. The pipeline was able to determine a principal isoform for 83% of a set of well-annotated genes with multiple variants.

AB - Motivation: Alternative splicing has the potential to generate a wide range of protein isoforms. For many computational applications and for experimental research, it is important to be able to concentrate on the isoform that retains the core biological function. For many genes this is far from clear. Results: We have combined five methods into a pipeline that allows us to detect the principal variant for a gene. Most of the methods were based on conservation between species, at the level of both gene and protein. The five methods used were the conservation of exonic structure, the detection of non-neutral evolution, the conservation of functional residues, the existence of a known protein structure and the abundance of vertebrate orthologues. The pipeline was able to determine a principal isoform for 83% of a set of well-annotated genes with multiple variants.

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VL - 24

SP - 11

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JO - Bioinformatics

JF - Bioinformatics

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ER -

Determination and validation of principal gene products

Abstract

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