A scalable adaptive quadratic kernel method for interpretable epistasis analysis in complex traits

IF 6.2 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Genome research Pub Date : 2024-08-29 DOI:10.1101/gr.279140.124
Boyang Fu, Prateek Anand, Aakarsh Anand, Joel Mefford, Sriram Sankararaman
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Abstract

Our knowledge of the contribution of genetic interactions (epistasis) to variation in human complex traits remains limited, partly due to the lack of efficient, powerful, and interpretable algorithms to detect interactions. Recently proposed approaches for set-based association tests show promise in improving power to detect epistasis by examining the aggregated effects of multiple variants. Nevertheless, these methods either do not scale to large Biobank datasets or lack interpretability. We propose QuadKAST, a scalable algorithm focused on testing pairwise interaction effects (quadratic effects) within small to medium sized sets of genetic variants (<= 100 SNPs) on a trait and provide quantified interpretation of these effects. Comprehensive simulations showed that QuadKAST is well-calibrated. Additionally, QuadKAST is highly sensitive in detecting loci with epistatic signals and accurate in its estimation of quadratic effects. We applied QuadKAST to 52 quantitative phenotypes measured in ~ 300,000 unrelated white British individuals in the UK Biobank to test for quadratic effects within each of 9,515 protein-coding genes. We detected 32 trait-gene pairs across 17 traits and 29 genes that demonstrate statistically significant signals of quadratic effects (p <= 0.05/(9,515*52) accounting for the number of genes and traits tested). Across these trait-gene pairs, the proportion of trait variance explained by quadratic effects is similar to additive effects (median {\sigma^{2}_{quad}} / {\sigma^{2}_{g}} = 0.15), with five pairs having a ratio greater than one. Our method enables the detailed investigation of epistasis on a large scale, offering new insights into its role and importance.
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用于复杂性状可解释外显分析的可扩展自适应二次核方法
我们对遗传相互作用(表观遗传)对人类复杂性状变异的贡献的了解仍然有限,部分原因是缺乏高效、强大和可解释的算法来检测相互作用。最近提出的基于集合的关联检验方法显示,通过检查多个变异的聚集效应,有望提高外显子的检测能力。然而,这些方法要么不能扩展到大型生物库数据集,要么缺乏可解释性。我们提出了 QuadKAST,这是一种可扩展的算法,专注于测试中小型遗传变异集(100 个 SNPs)中的成对交互效应(二次效应),并提供对这些效应的量化解释。综合模拟显示,QuadKAST 校准良好。此外,QuadKAST 在检测具有表观信号的位点方面非常灵敏,在估计二次效应方面也很准确。我们将 QuadKAST 应用于英国生物库中约 30 万名无血缘关系的英国白人的 52 种定量表型,以检测 9515 个蛋白质编码基因中每个基因的二次效应。我们在 17 个性状和 29 个基因中发现了 32 对性状-基因对,这些性状-基因对显示出统计学上显著的二次效应信号(p <=0.05/(9,515*52),考虑到测试的基因和性状数量)。在这些性状-基因对中,二次效应解释的性状变异比例与加性效应相似(中位数{\sigma^{2}_{quad}} / {\sigma^{2}_{g}} = 0.15),其中有 5 对的比率大于 1。我们的方法能够详细研究大规模的表观效应,为了解表观效应的作用和重要性提供了新的视角。
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来源期刊
Genome research
Genome research 生物-生化与分子生物学
CiteScore
12.40
自引率
1.40%
发文量
140
审稿时长
6 months
期刊介绍: Launched in 1995, Genome Research is an international, continuously published, peer-reviewed journal that focuses on research that provides novel insights into the genome biology of all organisms, including advances in genomic medicine. Among the topics considered by the journal are genome structure and function, comparative genomics, molecular evolution, genome-scale quantitative and population genetics, proteomics, epigenomics, and systems biology. The journal also features exciting gene discoveries and reports of cutting-edge computational biology and high-throughput methodologies. New data in these areas are published as research papers, or methods and resource reports that provide novel information on technologies or tools that will be of interest to a broad readership. Complete data sets are presented electronically on the journal''s web site where appropriate. The journal also provides Reviews, Perspectives, and Insight/Outlook articles, which present commentary on the latest advances published both here and elsewhere, placing such progress in its broader biological context.
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