Understanding the disease genome: gene essentiality and the interplay of selection, recombination and mutation
Understanding the disease genome: gene essentiality and the interplay of selection, recombination and mutation
Despite the identification of many genetic variants contributing to human disease (the ‘disease genome’) establishing reliable molecular diagnoses remain challenging in many cases. The ability to sequence the genomes of patients has been transformative but difficulty in interpretation of voluminous genetic variation often confounds recognition of underlying causal variants. There are numerous predictors of pathogenicity for individual DNA variants but their utility is reduced because many plausibly pathogenic variants are probably neutral. The rapidly increasing quantity and quality of information on the properties of genes suggests that gene-specific information might be useful for prediction of causal variation when used alongside variant-specific predictors of pathogenicity. The key to understanding the role of genes in disease relates in part to gene essentiality which has recently been approximated, for example, by quantifying the degree of intolerance of individual genes to loss-of-function variation. Increasing understanding of the interplay between genetic recombination, selection and mutation and their relationship to gene essentiality suggests that gene-specific information may be useful for the interpretation of sequenced genomes. Considered alongside additional distinctive properties of the disease genome, such as the timing of the evolutionary emergence of genes and the roles of their products in protein networks, the case for using gene-specific measures to guide filtering of sequenced genomes seems strong.
Disease genome, Gene essentiality, gene-specific filtering, next generation sequencing
267-273
Pengelly, Reuben J.
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Vergara Lope, Alejandra
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Alyousfi, Dareen
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Jabalameli, M. Reza
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Collins, Andrew
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January 2019
Pengelly, Reuben J.
af97c0c1-b568-415c-9f59-1823b65be76d
Vergara Lope, Alejandra
84ea3389-86d8-4b89-ad65-729173419305
Alyousfi, Dareen
b9cf8314-eb10-48e7-af30-7fb4d21abae2
Jabalameli, M. Reza
d533e702-7a6b-4f2d-8947-352ea1dd769b
Collins, Andrew
7daa83eb-0b21-43b2-af1a-e38fb36e2a64
Pengelly, Reuben J., Vergara Lope, Alejandra, Alyousfi, Dareen, Jabalameli, M. Reza and Collins, Andrew
(2019)
Understanding the disease genome: gene essentiality and the interplay of selection, recombination and mutation.
Briefings in Bioinformatics, 20 (1), .
(doi:10.1093/bib/bbx110).
Abstract
Despite the identification of many genetic variants contributing to human disease (the ‘disease genome’) establishing reliable molecular diagnoses remain challenging in many cases. The ability to sequence the genomes of patients has been transformative but difficulty in interpretation of voluminous genetic variation often confounds recognition of underlying causal variants. There are numerous predictors of pathogenicity for individual DNA variants but their utility is reduced because many plausibly pathogenic variants are probably neutral. The rapidly increasing quantity and quality of information on the properties of genes suggests that gene-specific information might be useful for prediction of causal variation when used alongside variant-specific predictors of pathogenicity. The key to understanding the role of genes in disease relates in part to gene essentiality which has recently been approximated, for example, by quantifying the degree of intolerance of individual genes to loss-of-function variation. Increasing understanding of the interplay between genetic recombination, selection and mutation and their relationship to gene essentiality suggests that gene-specific information may be useful for the interpretation of sequenced genomes. Considered alongside additional distinctive properties of the disease genome, such as the timing of the evolutionary emergence of genes and the roles of their products in protein networks, the case for using gene-specific measures to guide filtering of sequenced genomes seems strong.
Text
Pengelly_2017_gene_essentiality_Accepted_version
- Accepted Manuscript
More information
Accepted/In Press date: 8 August 2017
e-pub ahead of print date: 31 August 2017
Published date: January 2019
Keywords:
Disease genome, Gene essentiality, gene-specific filtering, next generation sequencing
Identifiers
Local EPrints ID: 412989
URI: http://eprints.soton.ac.uk/id/eprint/412989
ISSN: 1467-5463
PURE UUID: eea60261-8c15-4c4b-9ee5-83bf993fa779
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Date deposited: 10 Aug 2017 16:30
Last modified: 16 Mar 2024 05:37
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Contributors
Author:
Alejandra Vergara Lope
Author:
Dareen Alyousfi
Author:
M. Reza Jabalameli
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