Widespread naturally variable human exons aid genetic interpretation

Hannah Jacobs, Bram Gorissen, Jeremy Guez, Masahiro Kanai, Hilary Finucane, Christopher Burge
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Abstract

Most mammalian genes undergo alternative splicing. The splicing of some exons has been acquired or lost in specific mammalian lineages, but differences in splicing within the human population are poorly characterized. Using GTEx tissue transcriptomes from 838 individuals, we identified 56,415 exons which are included in mRNAs in some individuals but entirely excluded from others, which we term 'naturally variable exons' (NVEs). NVEs impact three quarters of protein-coding genes, occur at all population frequencies, and are often absent from reference annotations. NVEs are more abundant in genes depleted of genetic loss-of-function mutations and aid in the interpretation of causal genetic variants. Genetic variants modulate the splicing of many NVEs, and 5'UTR and coding-region NVEs are often associated with increased and decreased gene expression, respectively. Together, our findings characterize abundant splicing variation in the human population, with implications for a range of human genetic analyses.
人类外显子的广泛自然变异有助于基因解读
大多数哺乳动物基因都会发生替代剪接。一些外显子的剪接在特定的哺乳动物血统中获得或丢失,但人类群体中剪接的差异却很少被描述。利用来自 838 个个体的 GTEx 组织转录组,我们发现了 56,415 个外显子,这些外显子在某些个体中包含在 mRNA 中,但在另一些个体中则完全被排除在外,我们称之为 "自然可变外显子"(NVEs)。自然可变外显子影响四分之三的蛋白质编码基因,在所有种群中都会出现,而且往往不在参考注释中。在基因功能缺失突变消失的基因中,自然可变外显子更为丰富,有助于解释因果遗传变异。遗传变异会调节许多 NVE 的剪接,5'UTR 和编码区 NVE 通常分别与基因表达的增加和减少有关。我们的研究结果共同描述了人类群体中丰富的剪接变异,对一系列人类遗传学分析具有重要意义。
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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