Dual-trait genomic analysis in highly stratified Arabidopsis thaliana populations using genome-wide association summary statistics

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-05-31 DOI:10.1038/s41437-024-00688-z
Xiao Feng, Yanjun Zan, Ting Li, Yue Yao, Zheng Ning, Jiabei Li, Hadi Charati, Weilin Xu, Qianhui Wan, Dongyu Zeng, Ziyi Zeng, Yang Liu, Xia Shen
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Abstract

Genome-wide association study (GWAS) is a powerful tool to identify genomic loci underlying complex traits. However, the application in natural populations comes with challenges, especially power loss due to population stratification. Here, we introduce a bivariate analysis approach to a GWAS dataset of Arabidopsis thaliana. We demonstrate the efficiency of dual-phenotype analysis to uncover hidden genetic loci masked by population structure via a series of simulations. In real data analysis, a common allele, strongly confounded with population structure, is discovered to be associated with late flowering and slow maturation of the plant. The discovered genetic effect on flowering time is further replicated in independent datasets. Using Mendelian randomization analysis based on summary statistics from our GWAS and expression QTL scans, we predicted and replicated a candidate gene AT1G11560 that potentially causes this association. Further analysis indicates that this locus is co-selected with flowering-time-related genes. The discovered pleiotropic genotype-phenotype map provides new insights into understanding the genetic correlation of complex traits.

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利用全基因组关联汇总统计对高度分层的拟南芥种群进行双性状基因组分析。
全基因组关联研究(GWAS)是确定复杂性状基因组位点的有力工具。然而,在自然种群中的应用也面临挑战,尤其是种群分层导致的功率损失。在这里,我们对拟南芥的 GWAS 数据集引入了一种双变量分析方法。我们通过一系列模拟,展示了双表型分析发现被种群结构掩盖的隐性遗传位点的效率。在实际数据分析中,我们发现一个与种群结构密切相关的常见等位基因与植物的晚花和缓慢成熟有关。所发现的对开花时间的遗传效应在独立数据集中得到了进一步复制。利用基于 GWAS 和表达 QTL 扫描汇总统计的孟德尔随机化分析,我们预测并复制了可能导致这种关联的候选基因 AT1G11560。进一步分析表明,该基因位点与花期相关基因共同选择。所发现的多效基因型-表型图谱为理解复杂性状的遗传相关性提供了新的见解。
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CiteScore
7.20
自引率
4.30%
发文量
567
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