Whole-genome sequencing of 490,640 UK Biobank participants

生命银行 基因分型 基因组 生物 外显子组测序 遗传学 计算生物学 全基因组测序 人类遗传学 人类基因组 外显子组 基因组学 人类遗传变异 个人基因组学 基因型 基因 突变
作者
Manuscript Writing Group,Keren Carss,Bjarni V. Halldórsson,Liping Hou,Jimmy Z. Liu,Eleanor Wheeler,Yancy Lo,Kousik Kundu,Zhuoyi Huang,Ben Lacey,Ryan S. Dhindsa,Diana Rajan,Jelena Randjelović,Neil Marriott,Clare L. Scott,Ahmet Sinan Yavuz,Ian Johnston,Trevor Howe,Mary Helen Black,Kāri Stefánsson
出处
期刊:Nature [Nature Portfolio]
卷期号:645 (8081): 692-701 被引量:62
标识
DOI:10.1038/s41586-025-09272-9
摘要

Whole-genome sequencing provides an unbiased and complete view of the human genome and enables the discovery of genetic variation without the technical limitations of other genotyping technologies. Here we report on whole-genome sequencing of 490,640 UK Biobank participants, building on previous genotyping effort1. This advance deepens our understanding of how genetics associates with disease biology and further enhances the value of this open resource for the study of human biology and health. Coupling this dataset with rich phenotypic data, we surveyed within- and cross-ancestry genomic associations and identified novel genetic and clinical insights. Although most associations with disease traits were primarily observed in individuals of European ancestries, strong or novel signals were also identified in individuals of African and Asian ancestries. With the improved ability to accurately genotype structural variants and exonic variation in both coding and UTR sequences, we strengthened and revealed novel insights relative to whole-exome sequencing2,3 analyses. This dataset, representing a large collection of whole-genome sequencing data that is available to the UK Biobank research community, will enable advances of our understanding of the human genome, facilitate the discovery of diagnostics and therapeutics with higher efficacy and improved safety profile, and enable precision medicine strategies with the potential to improve global health.
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