Multi-trait analysis of gene-by-environment interactions in large-scale genetic studies.

IF 1.8 3区数学 Q3 MATHEMATICAL & COMPUTATIONAL BIOLOGY

Biostatistics Pub Date : 2024-04-15 DOI:10.1093/biostatistics/kxad004

Lan Luo, Devan V Mehrotra, Judong Shen, Zheng-Zheng Tang

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引用次数: 0

Abstract

Identifying genotype-by-environment interaction (GEI) is challenging because the GEI analysis generally has low power. Large-scale consortium-based studies are ultimately needed to achieve adequate power for identifying GEI. We introduce Multi-Trait Analysis of Gene-Environment Interactions (MTAGEI), a powerful, robust, and computationally efficient framework to test gene-environment interactions on multiple traits in large data sets, such as the UK Biobank (UKB). To facilitate the meta-analysis of GEI studies in a consortium, MTAGEI efficiently generates summary statistics of genetic associations for multiple traits under different environmental conditions and integrates the summary statistics for GEI analysis. MTAGEI enhances the power of GEI analysis by aggregating GEI signals across multiple traits and variants that would otherwise be difficult to detect individually. MTAGEI achieves robustness by combining complementary tests under a wide spectrum of genetic architectures. We demonstrate the advantages of MTAGEI over existing single-trait-based GEI tests through extensive simulation studies and the analysis of the whole exome sequencing data from the UKB.

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大规模遗传研究中基因与环境相互作用的多属性分析。

鉴定基因型与环境的交互作用（GEI）具有挑战性，因为 GEI 分析的功率通常较低。最终需要进行大规模的联合研究，以获得足够的功率来识别 GEI。我们介绍了基因与环境互作的多性状分析（MTAGEI），这是一个功能强大、稳健且计算效率高的框架，用于测试英国生物库（UKB）等大型数据集中多个性状的基因与环境互作。为便于在联合体中对 GEI 研究进行荟萃分析，MTAGEI 可高效生成不同环境条件下多个性状的遗传关联汇总统计，并将汇总统计整合到 GEI 分析中。MTAGEI 通过汇总多个性状和变异的 GEI 信号，增强了 GEI 分析的能力，否则很难单独检测到这些信号。MTAGEI 通过在广泛的遗传结构下结合互补测试来实现稳健性。我们通过广泛的模拟研究和对英国广播公司全外显子组测序数据的分析，证明了 MTAGEI 与现有的基于单一性状的 GEI 检测相比所具有的优势。

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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来源期刊

Biostatistics 生物-数学与计算生物学

CiteScore

5.10

自引率

4.80%

发文量

审稿时长

6-12 weeks

期刊介绍： Among the important scientific developments of the 20th century is the explosive growth in statistical reasoning and methods for application to studies of human health. Examples include developments in likelihood methods for inference, epidemiologic statistics, clinical trials, survival analysis, and statistical genetics. Substantive problems in public health and biomedical research have fueled the development of statistical methods, which in turn have improved our ability to draw valid inferences from data. The objective of Biostatistics is to advance statistical science and its application to problems of human health and disease, with the ultimate goal of advancing the public''s health.