Predicting the functional, molecular, and phenotypic consequences of amino acid substitutions using hidden Markov models.
Hashem A. Shihab,Julian Gough,David Neil Cooper,Peter D. Stenson,Gary L A Barker,Keith J. Edwards,Ian N. M. Day,Tom R. Gaunt +7 more
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TLDR
The Functional Analysis Through Hidden Markov Models (FATHMM) software and server is described: a species‐independent method with optional species‐specific weightings for the prediction of the functional effects of protein missense variants, demonstrating that FATHMM can be efficiently applied to high‐throughput/large‐scale human and nonhuman genome sequencing projects with the added benefit of phenotypic outcome associations.Abstract:
The rate at which nonsynonymous single nucleotide polymorphisms (nsSNPs) are being identified in the human genome is increasing dramatically owing to advances in whole-genome/whole-exome sequencing technologies. Automated methods capable of accurately and reliably distinguishing between pathogenic and functionally neutral nsSNPs are therefore assuming ever-increasing importance. Here, we describe the Functional Analysis Through Hidden Markov Models (FATHMM) software and server: a species-independent method with optional species-specific weightings for the prediction of the functional effects of protein missense variants. Using a model weighted for human mutations, we obtained performance accuracies that outperformed traditional prediction methods (i.e., SIFT, PolyPhen, and PANTHER) on two separate benchmarks. Furthermore, in one benchmark, we achieve performance accuracies that outperform current state-of-the-art prediction methods (i.e., SNPs&GO and MutPred). We demonstrate that FATHMM can be efficiently applied to high-throughput/large-scale human and nonhuman genome sequencing projects with the added benefit of phenotypic outcome associations. To illustrate this, we evaluated nsSNPs in wheat (Triticum spp.) to identify some of the important genetic variants responsible for the phenotypic differences introduced by intense selection during domestication. A Web-based implementation of FATHMM, including a high-throughput batch facility and a downloadable standalone package, is available at http://fathmm.biocompute.org.uk.read more
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Mutations in Human Accelerated Regions Disrupt Cognition and Social Behavior
Ryan N. Doan,Byoung-Il Bae,Beatriz Cubelos,Cindy Chang,Amer A. Hossain,Samira Al-Saad,Nahit Motavalli Mukaddes,Ozgur Oner,Muna Al-Saffar,Muna Al-Saffar,Soher Balkhy,Generoso G. Gascon,Marta Nieto,Christopher A. Walsh,Christopher A. Walsh,Christopher A. Walsh +15 more
TL;DR: Using chromatin interaction sequencing, massively parallel reporter assays, and transgenic mice, genetic evidence is provided that specific HARs are essential for normal development, consistent with suggestions that their evolutionary changes may have altered social and/or cognitive behavior.
Journal ArticleDOI
dbNSFP v4: a comprehensive database of transcript-specific functional predictions and annotations for human nonsynonymous and splice-site SNVs
TL;DR: The latest updates to dbNSFP (version 4.1), a database designed to facilitate deleteriousness prediction and functional annotation for all potential nonsynonymous and splice-site SNVs in the human genome, are presented.
Journal ArticleDOI
Inferring the molecular and phenotypic impact of amino acid variants with MutPred2.
Vikas Pejaver,Vikas Pejaver,Jorge Urresti,Jose Lugo-Martinez,Jose Lugo-Martinez,Kymberleigh A. Pagel,Kymberleigh A. Pagel,Guan Ning Lin,Guan Ning Lin,Hyun-Jun Nam,Matthew Mort,David Neil Cooper,Jonathan Sebat,Lilia M. Iakoucheva,Sean D. Mooney,Predrag Radivojac,Predrag Radivojac +16 more
TL;DR: This work demonstrates the utility of MutPred2 in the identification of the structural and functional mutational signatures relevant to Mendelian disorders and the prioritization of de novo mutations associated with complex neurodevelopmental disorders, and argues that mechanism-driven studies of human inherited disease have the potential to significantly accelerate the discovery of clinically actionable variants.
Journal ArticleDOI
Machine Learning in Genomic Medicine: A Review of Computational Problems and Data Sets
TL;DR: In this paper, the authors focus on how machine learning can help to model the relationship between DNA and the quantities of key molecules in the cell, with the premise that these quantities, which they refer to as cell variables, may be associated with disease risks.
Journal ArticleDOI
Predicting the functional consequences of cancer-associated amino acid substitutions
TL;DR: An adaptation of the original algorithm that incorporates a cancer-specific model to potentiate the functional analysis of driver mutations is described, which observed improved performances when distinguishing between driver mutations and other germ line variants (both disease-causing and putatively neutral mutations).
References
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