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Effectively Identifying eQTLs from Multiple Tissues by Combining Mixed Model and Meta-analytic Approaches

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  • Jae Hoon Sul
  • Buhm Han
  • Chun Ye
  • Ted Choi
  • Eleazar Eskin

Abstract

Gene expression data, in conjunction with information on genetic variants, have enabled studies to identify expression quantitative trait loci (eQTLs) or polymorphic locations in the genome that are associated with expression levels. Moreover, recent technological developments and cost decreases have further enabled studies to collect expression data in multiple tissues. One advantage of multiple tissue datasets is that studies can combine results from different tissues to identify eQTLs more accurately than examining each tissue separately. The idea of aggregating results of multiple tissues is closely related to the idea of meta-analysis which aggregates results of multiple genome-wide association studies to improve the power to detect associations. In principle, meta-analysis methods can be used to combine results from multiple tissues. However, eQTLs may have effects in only a single tissue, in all tissues, or in a subset of tissues with possibly different effect sizes. This heterogeneity in terms of effects across multiple tissues presents a key challenge to detect eQTLs. In this paper, we develop a framework that leverages two popular meta-analysis methods that address effect size heterogeneity to detect eQTLs across multiple tissues. We show by using simulations and multiple tissue data from mouse that our approach detects many eQTLs undetected by traditional eQTL methods. Additionally, our method provides an interpretation framework that accurately predicts whether an eQTL has an effect in a particular tissue.Author Summary: The combination of gene expression and genetic variation data has enabled the identification of genetic variants that affect gene expression levels. It has been shown that some variants influence gene expression in only one tissue while others influence gene expression in multiple tissues. However, an analysis of multiple tissue data using traditional statistical methods typically fails to identify those variants that affect multiple tissues because each tissue is treated independently and due to low statistical power, the effect in a given tissue may be missed. Building on recent advances in statistical methods for meta-analysis and mixed models, we present a novel method that combines information from multiple tissues to identify genetic variation that affects multiple tissues. We show that our method detects more genetic variation that influences multiple tissues than traditional statistical methods both on simulated and real data.

Suggested Citation

  • Jae Hoon Sul & Buhm Han & Chun Ye & Ted Choi & Eleazar Eskin, 2013. "Effectively Identifying eQTLs from Multiple Tissues by Combining Mixed Model and Meta-analytic Approaches," PLOS Genetics, Public Library of Science, vol. 9(6), pages 1-13, June.
  • Handle: RePEc:plo:pgen00:1003491
    DOI: 10.1371/journal.pgen.1003491
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    References listed on IDEAS

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    1. Vivian G. Cheung & Richard S. Spielman & Kathryn G. Ewens & Teresa M. Weber & Michael Morley & Joshua T. Burdick, 2005. "Mapping determinants of human gene expression by regional and genome-wide association," Nature, Nature, vol. 437(7063), pages 1365-1369, October.
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    1. Zachary R. McCaw & Sheila M. Gaynor & Ryan Sun & Xihong Lin, 2023. "Leveraging a surrogate outcome to improve inference on a partially missing target outcome," Biometrics, The International Biometric Society, vol. 79(2), pages 1472-1484, June.
    2. Ting Fu & Kofi Amoah & Tracey W. Chan & Jae Hoon Bahn & Jae-Hyung Lee & Sari Terrazas & Rockie Chong & Sriram Kosuri & Xinshu Xiao, 2024. "Massively parallel screen uncovers many rare 3′ UTR variants regulating mRNA abundance of cancer driver genes," Nature Communications, Nature, vol. 15(1), pages 1-20, December.

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