期刊
BRIEFINGS IN BIOINFORMATICS
卷 22, 期 2, 页码 1782-1789出版社
OXFORD UNIV PRESS
DOI: 10.1093/bib/bbaa029
关键词
whole genome sequence; monogenic disease; gene-level metrics; disease genome; gene-specific score; gene essentiality
资金
- Saudi Arabia cultural bureau uk
More than 50% of causal genetic variants underlying potential single gene disorders remain undiscovered, affecting clinical management without confirmed molecular diagnoses. The ESPP score has been developed to aid in filtering genome sequence data and identify genes with high potential for pathogenic disease-related variation. Recognizing gene essentiality can guide the identification of causal variants and improve genome sequence filtering.
The causal genetic variants underlying more than 50% of single gene (monogenic) disorders are yet to be discovered. Many patients with conditions likely to have a monogenic basis do not receive a confirmed molecular diagnosis which has potential impacts on clinical management. We have developed a gene-specific score, essentiality-specific pathogenicity prioritization (ESPP), to guide the recognition of genes likely to underlie monogenic disease variation to assist in filtering of genome sequence data. When a patient genome is sequenced, there are frequently several plausibly pathogenic variants identified in different genes. Recognition of the single gene most likely to include pathogenic variation can guide the identification of a causal variant. The ESPP score integrates gene-level scores which are broadly related to gene essentiality. Previous work towards the recognition of monogenic disease genes proposed a model with increasing gene essentiality from `non-essential' to 'essential' genes (for which pathogenic variation may be incompatible with survival) with genes liable to contain disease variation positioned between these two extremes. We demonstrate that the ESPP score is useful for recognizing genes with high potential for pathogenic disease-related variation. Genes classed as essential have particularly high scores, as do genes recently recognized as strong candidates for developmental disorders. Through the integration of individual gene-specific scores, which have different properties and assumptions, we demonstrate the utility of an essentiality-based gene score to improve sequence genome filtering.
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