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Literature DB >> 34017140

Computationally efficient whole-genome regression for quantitative and binary traits.

Joelle Mbatchou¹, Leland Barnard¹, Joshua Backman¹, Anthony Marcketta¹, Jack A Kosmicki¹, Andrey Ziyatdinov¹, Christian Benner¹, Colm O'Dushlaine¹, Mathew Barber¹, Boris Boutkov¹, Lukas Habegger¹, Manuel Ferreira¹, Aris Baras¹, Jeffrey Reid¹, Goncalo Abecasis¹, Evan Maxwell¹, Jonathan Marchini².

Abstract

Genome-wide association analysis of cohorts with thousands of phenotypes is computationally expensive, particularly when accounting for sample relatedness or population structure. Here we present a novel machine-learning method called REGENIE for fitting a whole-genome regression model for quantitative and binary phenotypes that is substantially faster than alternatives in multi-trait analyses while maintaining statistical efficiency. The method naturally accommodates parallel analysis of multiple phenotypes and requires only local segments of the genotype matrix to be loaded in memory, in contrast to existing alternatives, which must load genome-wide matrices into memory. This results in substantial savings in compute time and memory usage. We introduce a fast, approximate Firth logistic regression test for unbalanced case-control phenotypes. The method is ideally suited to take advantage of distributed computing frameworks. We demonstrate the accuracy and computational benefits of this approach using the UK Biobank dataset with up to 407,746 individuals.

Entities: Chemical

Mesh：

Year: 2021 PMID： 34017140 DOI： 10.1038/s41588-021-00870-7

Source DB: PubMed Journal: Nat Genet ISSN： 1061-4036 Impact factor: 38.330

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Cited

54 in total

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