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Genome-wide prediction of pathogenic gain- and loss-of-function variants from ensemble learning of a diverse feature set

by Kars, Meltem Ece , Wu, Yiming , Bayrak, Çiğdem Sevim , Stein, David , Schlessinger, Avner , Stenson, Peter D. , Cooper, David N. , Itan, Yuval

in Bioinformatics / Biomedical and Life Sciences / Biomedicine / Cancer Research / Datasets / Gain-of-function / Genes / Genetic diversity / Genome / Genomes / Human Genetics / Humans / Loss-of-function / Machine Learning / Medicine/Public Health / Metabolomics / Method / Pathogenicity / Pathogenicity prediction / Precision medicine / Protein function / Proteins / Systems Biology / Variant functional impact

2023

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Genome-wide prediction of pathogenic gain- and loss-of-function variants from ensemble learning of a diverse feature set

by Kars, Meltem Ece , Wu, Yiming , Bayrak, Çiğdem Sevim , Stein, David , Schlessinger, Avner , Stenson, Peter D. , Cooper, David N. , Itan, Yuval

2023

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Genome-wide prediction of pathogenic gain- and loss-of-function variants from ensemble learning of a diverse feature set

by Kars, Meltem Ece , Wu, Yiming , Bayrak, Çiğdem Sevim , Stein, David , Schlessinger, Avner , Stenson, Peter D. , Cooper, David N. , Itan, Yuval

2023

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Journal Article

Genome-wide prediction of pathogenic gain- and loss-of-function variants from ensemble learning of a diverse feature set

Kars, Meltem Ece,

Wu, Yiming,

Bayrak, Çiğdem Sevim,

Stein, David,

Schlessinger, Avner,

Stenson, Peter D.,

Cooper, David N.,

Itan, Yuval

2023

Overview

Gain-of-function (GOF) variants give rise to increased/novel protein functions whereas loss-of-function (LOF) variants lead to diminished protein function. Experimental approaches for identifying GOF and LOF are generally slow and costly, whilst available computational methods have not been optimized to discriminate between GOF and LOF variants. We have developed LoGoFunc, a machine learning method for predicting pathogenic GOF, pathogenic LOF, and neutral genetic variants, trained on a broad range of gene-, protein-, and variant-level features describing diverse biological characteristics. LoGoFunc outperforms other tools trained solely to predict pathogenicity for identifying pathogenic GOF and LOF variants and is available at https://itanlab.shinyapps.io/goflof/ .

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Publisher

BioMed Central,Springer Nature B.V,BMC

Subject

Bioinformatics

/ Biomedical and Life Sciences

/ Genes