Robust, flexible, and scalable tests for Hardy-Weinberg equilibrium across diverse ancestries

NHLBI Trans-Omics for Precision Medicine (TOPMed) Consortium

doi:10.1093/genetics/iyab044

Robust, flexible, and scalable tests for Hardy-Weinberg equilibrium across diverse ancestries

NHLBI Trans-Omics for Precision Medicine (TOPMed) Consortium

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Traditional Hardy-Weinberg equilibrium (HWE) tests (the χ2 test and the exact test) have long been used as a metric for evaluating genotype quality, as technical artifacts leading to incorrect genotype calls often can be identified as deviations from HWE. However, in data sets composed of individuals from diverse ancestries, HWE can be violated even without genotyping error, complicating the use of HWE testing to assess genotype data quality. In this manuscript, we present the Robust Unified Test for HWE (RUTH) to test for HWE while accounting for population structure and genotype uncertainty, and to evaluate the impact of population heterogeneity and genotype uncertainty on the standard HWE tests and alternative methods using simulated and real sequence data sets. Our results demonstrate that ignoring population structure or genotype uncertainty in HWE tests can inflate false-positive rates by many orders of magnitude. Our evaluations demonstrate different tradeoffs between false positives and statistical power across the methods, with RUTH consistently among the best across all evaluations. RUTH is implemented as a practical and scalable software tool to rapidly perform HWE tests across millions of markers and hundreds of thousands of individuals while supporting standard VCF/BCF formats. RUTH is publicly available at https://www.github.com/statgen/ruth.

Original language	English (US)
Article number	iyab044
Journal	Genetics
Volume	218
Issue number	1
DOIs	https://doi.org/10.1093/genetics/iyab044
State	Published - May 2021

Keywords

genotype likelihoods
next-generation sequencing
population structure
principal components analysis

ASJC Scopus subject areas

General Medicine

Access to Document

10.1093/genetics/iyab044

Cite this

@article{273fd4ba0918468cb76f7545233fc191,

title = "Robust, flexible, and scalable tests for Hardy-Weinberg equilibrium across diverse ancestries",

abstract = "Traditional Hardy-Weinberg equilibrium (HWE) tests (the χ2 test and the exact test) have long been used as a metric for evaluating genotype quality, as technical artifacts leading to incorrect genotype calls often can be identified as deviations from HWE. However, in data sets composed of individuals from diverse ancestries, HWE can be violated even without genotyping error, complicating the use of HWE testing to assess genotype data quality. In this manuscript, we present the Robust Unified Test for HWE (RUTH) to test for HWE while accounting for population structure and genotype uncertainty, and to evaluate the impact of population heterogeneity and genotype uncertainty on the standard HWE tests and alternative methods using simulated and real sequence data sets. Our results demonstrate that ignoring population structure or genotype uncertainty in HWE tests can inflate false-positive rates by many orders of magnitude. Our evaluations demonstrate different tradeoffs between false positives and statistical power across the methods, with RUTH consistently among the best across all evaluations. RUTH is implemented as a practical and scalable software tool to rapidly perform HWE tests across millions of markers and hundreds of thousands of individuals while supporting standard VCF/BCF formats. RUTH is publicly available at https://www.github.com/statgen/ruth.",

keywords = "genotype likelihoods, next-generation sequencing, population structure, principal components analysis",

author = "{NHLBI Trans-Omics for Precision Medicine (TOPMed) Consortium} and Kwong, {Alan M.} and Blackwell, {Thomas W.} and Jonathon Lefaive and {De Andrade}, Mariza and John Barnard and Barnes, {Kathleen C.} and John Blangero and Eric Boerwinkle and Burchard, {Esteban G.} and Cade, {Brian E.} and Chasman, {Daniel I.} and Han Chen and Conomos, {Matthew P.} and Cupples, {L. Adrienne} and Ellinor, {Patrick T.} and Celeste Eng and Yan Gao and Xiuqing Guo and Irvin, {Marguerite Ryan} and Kelly, {Tanika N.} and Wonji Kim and Charles Kooperberg and Lubitz, {Steven A.} and Mak, {Angel C.Y.} and Manichaikul, {Ani W.} and Mathias, {Rasika A.} and Montasser, {May E.} and Montgomery, {Courtney G.} and Solomon Musani and Palmer, {Nicholette D.} and Peloso, {Gina M.} and Dandi Qiao and Reiner, {Alexander P.} and Roden, {Dan M.} and Shoemaker, {M. Benjamin} and Smith, {Jennifer A.} and Smith, {Nicholas L.} and Su, {Jessica Lasky} and Tiwari, {Hemant K.} and Weeks, {Daniel E.} and Weiss, {Scott T.} and Scott, {Laura J.} and Smith, {Albert V.} and Abecasis, {Gon{\c c}alo R.} and Michael Boehnke and Kang, {Hyun Min}",

year = "2021",

month = may,

doi = "10.1093/genetics/iyab044",

language = "English (US)",

volume = "218",

journal = "Genetics",

issn = "0016-6731",

publisher = "Genetics Society of America",

number = "1",

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AU - NHLBI Trans-Omics for Precision Medicine (TOPMed) Consortium

AU - Kwong, Alan M.

AU - Blackwell, Thomas W.

AU - Lefaive, Jonathon

AU - De Andrade, Mariza

AU - Barnard, John

AU - Barnes, Kathleen C.

AU - Blangero, John

AU - Boerwinkle, Eric

AU - Burchard, Esteban G.

AU - Cade, Brian E.

AU - Chasman, Daniel I.

AU - Chen, Han

AU - Conomos, Matthew P.

AU - Cupples, L. Adrienne

AU - Ellinor, Patrick T.

AU - Eng, Celeste

AU - Gao, Yan

AU - Guo, Xiuqing

AU - Irvin, Marguerite Ryan

AU - Kelly, Tanika N.

AU - Kim, Wonji

AU - Kooperberg, Charles

AU - Lubitz, Steven A.

AU - Mak, Angel C.Y.

AU - Manichaikul, Ani W.

AU - Mathias, Rasika A.

AU - Montasser, May E.

AU - Montgomery, Courtney G.

AU - Musani, Solomon

AU - Palmer, Nicholette D.

AU - Peloso, Gina M.

AU - Qiao, Dandi

AU - Reiner, Alexander P.

AU - Roden, Dan M.

AU - Shoemaker, M. Benjamin

AU - Smith, Jennifer A.

AU - Smith, Nicholas L.

AU - Su, Jessica Lasky

AU - Tiwari, Hemant K.

AU - Weeks, Daniel E.

AU - Weiss, Scott T.

AU - Scott, Laura J.

AU - Smith, Albert V.

AU - Abecasis, Gonçalo R.

AU - Boehnke, Michael

AU - Kang, Hyun Min

PY - 2021/5

Y1 - 2021/5

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AB - Traditional Hardy-Weinberg equilibrium (HWE) tests (the χ2 test and the exact test) have long been used as a metric for evaluating genotype quality, as technical artifacts leading to incorrect genotype calls often can be identified as deviations from HWE. However, in data sets composed of individuals from diverse ancestries, HWE can be violated even without genotyping error, complicating the use of HWE testing to assess genotype data quality. In this manuscript, we present the Robust Unified Test for HWE (RUTH) to test for HWE while accounting for population structure and genotype uncertainty, and to evaluate the impact of population heterogeneity and genotype uncertainty on the standard HWE tests and alternative methods using simulated and real sequence data sets. Our results demonstrate that ignoring population structure or genotype uncertainty in HWE tests can inflate false-positive rates by many orders of magnitude. Our evaluations demonstrate different tradeoffs between false positives and statistical power across the methods, with RUTH consistently among the best across all evaluations. RUTH is implemented as a practical and scalable software tool to rapidly perform HWE tests across millions of markers and hundreds of thousands of individuals while supporting standard VCF/BCF formats. RUTH is publicly available at https://www.github.com/statgen/ruth.

KW - genotype likelihoods

KW - next-generation sequencing

KW - population structure

KW - principal components analysis

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Robust, flexible, and scalable tests for Hardy-Weinberg equilibrium across diverse ancestries

Abstract

Keywords

ASJC Scopus subject areas

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