Uncovering causal gene-tissue pairs and variants: A multivariable TWAS method controlling for infinitesimal effects.

Yihe Yang, Noah Lorincz-Comi, Xiaofeng Zhu
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引用次数: 0

Abstract

Transcriptome-wide association studies (TWAS) are commonly used to prioritize causal genes underlying associations found in genome-wide association studies (GWAS) and have been extended to identify causal genes through multivariable TWAS methods. However, recent studies have shown that widespread infinitesimal effects due to polygenicity can impair the performance of these methods. In this report, we introduce a multivariable TWAS method named Tissue-Gene pairs, direct causal Variants, and Infinitesimal effects selector (TGVIS) to identify tissue-specific causal genes and direct causal variants while accounting for infinitesimal effects. In simulations, TGVIS maintains an accurate prioritization of causal gene-tissue pairs and variants and demonstrates comparable or superior power to existing approaches, regardless of the presence of infinitesimal effects. In the real data analysis of GWAS summary data of 45 cardiometabolic traits and expression/splicing quantitative trait loci (eQTL/sQTL) from 31 tissues, TGVIS is able to improve causal gene prioritization and identifies novel genes that were missed by conventional TWAS.

揭示因果基因-组织对和变异:控制无穷小效应的多变量 TWAS 方法。
全转录组关联研究(TWAS)通常用于优先确定全基因组关联研究(GWAS)中发现的关联的因果基因,并通过多变量 TWAS 方法扩展到确定因果基因。然而,最近的研究表明,多基因性导致的广泛的无限小效应会损害这些方法的性能。在本报告中,我们介绍了一种名为 "组织-基因对、直接因果变异和无穷小效应选择器(TGVIS)"的多变量 TWAS 方法,用于识别组织特异性因果基因和直接因果变异,同时考虑无穷小效应。在模拟实验中,TGVIS 保持了因果基因-组织对和变异的准确优先级,并显示出与现有方法相当或更高的能力,而不管是否存在无限小效应。在对来自 31 个组织的 45 个心脏代谢性状和表达/拼接定量性状位点(eQTL/sQTL)的 GWAS 摘要数据进行真实数据分析时,TGVIS 能够改进因果基因的优先排序,并识别出传统 TWAS 遗漏的新基因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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