Genome Biology (May 2021)

Tejaas: reverse regression increases power for detecting trans-eQTLs

  • Saikat Banerjee,
  • Franco L. Simonetti,
  • Kira E. Detrois,
  • Anubhav Kaphle,
  • Raktim Mitra,
  • Rahul Nagial,
  • Johannes Söding

DOI
https://doi.org/10.1186/s13059-021-02361-8
Journal volume & issue
Vol. 22, no. 1
pp. 1 – 16

Abstract

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Abstract Trans-acting expression quantitative trait loci (trans-eQTLs) account for ≥70% expression heritability and could therefore facilitate uncovering mechanisms underlying the origination of complex diseases. Identifying trans-eQTLs is challenging because of small effect sizes, tissue specificity, and a severe multiple-testing burden. Tejaas predicts trans-eQTLs by performing L2-regularized “reverse” multiple regression of each SNP on all genes, aggregating evidence from many small trans-effects while being unaffected by the strong expression correlations. Combined with a novel unsupervised k-nearest neighbor method to remove confounders, Tejaas predicts 18851 unique trans-eQTLs across 49 tissues from GTEx. They are enriched in open chromatin, enhancers, and other regulatory regions. Many overlap with disease-associated SNPs, pointing to tissue-specific transcriptional regulation mechanisms.