生物性别影响整个人类基因组的功能变异

Angela G. Jones, Guinevere G. Connelly, Trisha Dalapati, Liuyang Wang, Benjamin H. Schott, Adrianna K. San Roman, Dennis C. Ko
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引用次数: 0

摘要

人类在许多性状上都表现出性别二态性,但人们对其潜在的遗传机制及其对疾病的影响却知之甚少。我们利用 480 个淋巴母细胞细胞系的单细胞 RNA 序列分析发现,绝大多数(79%)有性别差异的基因是转录因子的靶标,而转录因子会显示出性别差异表达。此外,我们还开发了一种两步回归法,在整个基因组中鉴定出了性别偏向表达定量性状位点(sb-eQTL)。与之前的工作不同的是,这些sb-eQTL非常丰富(n=10,754;FDR 5%)且具有可重复性(重复性可达π1=0.56)。这些sb-eQTL富集在600多个GWAS表型中,包括120个与女性偏爱的自身免疫性疾病多发性硬化相关的sb-eQTL。我们的研究结果表明了遗传对性别二形性的广泛影响,并确定了不同疾病性别差异的可能机制和临床靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biological sex affects functional variation across the human genome
Humans display sexual dimorphism across many traits, but little is known about underlying genetic mechanisms and impacts on disease. We utilized single-cell RNA-seq of 480 lymphoblastoid cell lines to reveal that the vast majority (79%) of sex-biased genes are targets of transcription factors that display sex-biased expression. Further, we developed a two-step regression method that identified sex-biased expression quantitative trait loci (sb-eQTL) across the genome. In contrast to previous work, these sb-eQTL are abundant (n=10,754; FDR 5%) and reproducible (replication up to π1=0.56). These sb-eQTL are enriched in over 600 GWAS phenotypes, including 120 sb-eQTL associated with the female-biased autoimmune disease multiple sclerosis. Our results demonstrate widespread genetic impacts on sexual dimorphism and identify possible mechanisms and clinical targets for sex differences in diverse diseases.
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