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利用碱基对哺乳动物约束来理解遗传变异和人类疾病。

Leveraging base-pair mammalian constraint to understand genetic variation and human disease.

机构信息

Department of Genetics, University of North Carolina Medical School, Chapel Hill, NC 27599, USA.

Department of Medical Epidemiology and Biostatistics, Karolinska Institute, 17177 Stockholm, Sweden.

出版信息

Science. 2023 Apr 28;380(6643):eabn2937. doi: 10.1126/science.abn2937.

DOI:10.1126/science.abn2937
PMID:37104612
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10259825/
Abstract

Thousands of genomic regions have been associated with heritable human diseases, but attempts to elucidate biological mechanisms are impeded by an inability to discern which genomic positions are functionally important. Evolutionary constraint is a powerful predictor of function, agnostic to cell type or disease mechanism. Single-base phyloP scores from 240 mammals identified 3.3% of the human genome as significantly constrained and likely functional. We compared phyloP scores to genome annotation, association studies, copy-number variation, clinical genetics findings, and cancer data. Constrained positions are enriched for variants that explain common disease heritability more than other functional annotations. Our results improve variant annotation but also highlight that the regulatory landscape of the human genome still needs to be further explored and linked to disease.

摘要

数千个基因组区域与可遗传的人类疾病相关,但由于无法辨别哪些基因组位置具有功能重要性,阐明生物学机制的尝试受到了阻碍。进化约束是功能的有力预测因子,与细胞类型或疾病机制无关。来自 240 种哺乳动物的单碱基 phyloP 得分将人类基因组的 3.3%确定为受到显著约束且可能具有功能。我们将 phyloP 得分与基因组注释、关联研究、拷贝数变异、临床遗传学发现和癌症数据进行了比较。约束位置富集了解释常见疾病遗传力的变异,比其他功能注释更具解释力。我们的结果改善了变异注释,但也突出表明人类基因组的调控景观仍需要进一步探索,并与疾病联系起来。

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