Efficient Bayesian mixed-model analysis increases association power in large cohorts

Vilhjálmsson, Bjarni J. ; Patterson, Nick ; et al.

In: Nature genetics, vol 47, iss 3 Nature genetics PMC; (2015-03-01)

Online unknown

Zugriff:

Linear mixed models are a powerful statistical tool for identifying genetic associations and avoiding confounding. However, existing methods are computationally intractable in large cohorts and may not optimize power. All existing methods require time cost O(MN2) (where N is the number of samples and M is the number of SNPs) and implicitly assume an infinitesimal genetic architecture in which effect sizes are normally distributed, which can limit power. Here we present a far more efficient mixed-model association method, BOLT-LMM, which requires only a small number of O(MN) time iterations and increases power by modeling more realistic, non-infinitesimal genetic architectures via a Bayesian mixture prior on marker effect sizes. We applied BOLT-LMM to 9 quantitative traits in 23,294 samples from the Women's Genome Health Study (WGHS) and observed significant increases in power, consistent with simulations. Theory and simulations show that the boost in power increases with cohort size, making BOLT-LMM appealing for genome-wide association studies in large cohorts.

National Institutes of Health (U.S.) (grant R01 HG006399)

National Institutes of Health (U.S.) (fellowship F32 HG007805)

Hertz Foundation

Titel:	Efficient Bayesian mixed-model analysis increases association power in large cohorts
Autor/in / Beteiligte Person:	Vilhjálmsson, Bjarni J. ; Patterson, Nick ; Chasman, Daniel I. ; Neale, Benjamin M. ; Ridker, Paul M. ; Bulik-Sullivan, Brendan ; Price, Alkes L. ; Loh, Po-Ru ; Finucane, Hilary K. ; Berger, Bonnie ; Tucker, George ; Salem, Rany M. ; Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory ; Massachusetts Institute of Technology. Department of Mathematics ; Tucker, George Jay ; Finucane, Hilary Kiyo ; Berger Leighton, Bonnie
Link:	View record in OpenAIRE (Volltext) https://escholarship.org/uc/item/0tb188tg
Quelle:	Nature genetics, vol 47, iss 3 Nature genetics PMC; (2015-03-01)
Veröffentlichung:	eScholarship, University of California, 2015
Medientyp:	unknown
Schlagwort:	Mixed model Genotyping Techniques Bayesian probability Quantitative Trait Loci Biology Bioinformatics Polymorphism, Single Nucleotide Medical and Health Sciences Article Generalized linear mixed model Bayes' theorem Statistics Genetics Humans Limit (mathematics) Polymorphism Genetic Association Studies Genome Genome, Human Small number Linear model Bayes Theorem Single Nucleotide Biological Sciences Genetic architecture Linear Models Female Algorithms Human Developmental Biology
Sonstiges:	Nachgewiesen in: OpenAIRE File Description: application/pdf Rights: OPEN

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