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Operating characteristics of the rank‐based inverse normal transformation for quantitative trait analysis in genome‐wide association studies

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  • Zachary R. McCaw
  • Jacqueline M. Lane
  • Richa Saxena
  • Susan Redline
  • Xihong Lin

Abstract

Quantitative traits analyzed in Genome‐Wide Association Studies (GWAS) are often nonnormally distributed. For such traits, association tests based on standard linear regression are subject to reduced power and inflated type I error in finite samples. Applying the rank‐based inverse normal transformation (INT) to nonnormally distributed traits has become common practice in GWAS. However, the different variations on INT‐based association testing have not been formally defined, and guidance is lacking on when to use which approach. In this paper, we formally define and systematically compare the direct (D‐INT) and indirect (I‐INT) INT‐based association tests. We discuss their assumptions, underlying generative models, and connections. We demonstrate that the relative powers of D‐INT and I‐INT depend on the underlying data generating process. Since neither approach is uniformly most powerful, we combine them into an adaptive omnibus test (O‐INT). O‐INT is robust to model misspecification, protects the type I error, and is well powered against a wide range of nonnormally distributed traits. Extensive simulations were conducted to examine the finite sample operating characteristics of these tests. Our results demonstrate that, for nonnormally distributed traits, INT‐based tests outperform the standard untransformed association test, both in terms of power and type I error rate control. We apply the proposed methods to GWAS of spirometry traits in the UK Biobank. O‐INT has been implemented in the R package RNOmni, which is available on CRAN.

Suggested Citation

  • Zachary R. McCaw & Jacqueline M. Lane & Richa Saxena & Susan Redline & Xihong Lin, 2020. "Operating characteristics of the rank‐based inverse normal transformation for quantitative trait analysis in genome‐wide association studies," Biometrics, The International Biometric Society, vol. 76(4), pages 1262-1272, December.
    • Handle: RePEc:bla:biomet:v:76:y:2020:i:4:p:1262-1272
    DOI: 10.1111/biom.13214
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    1. Matteo Di Scipio & Mohammad Khan & Shihong Mao & Michael Chong & Conor Judge & Nazia Pathan & Nicolas Perrot & Walter Nelson & Ricky Lali & Shuang Di & Robert Morton & Jeremy Petch & Guillaume Paré, 2023. "A versatile, fast and unbiased method for estimation of gene-by-environment interaction effects on biobank-scale datasets," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    2. Emil M. Pedersen & Esben Agerbo & Oleguer Plana-Ripoll & Jette Steinbach & Morten D. Krebs & David M. Hougaard & Thomas Werge & Merete Nordentoft & Anders D. Børglum & Katherine L. Musliner & Andrea G, 2023. "ADuLT: An efficient and robust time-to-event GWAS," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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