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

人类基因组基因组生物注释疾病人类遗传变异计算生物学遗传学遗传力约束（计算机辅助设计）人类疾病机制（生物学）遗传变异基因组学人类遗传学功能（生物学）全基因组关联研究变化（天文学）拷贝数变化进化生物学基因单核苷酸多态性医学基因型病理机械工程哲学工程类物理天体物理学认识论

作者

Patrick F. Sullivan,Jennifer R. S. Meadows,Steven Gazal,BaDoi N. Phan,Xue Li,Diane P. Genereux,Michael X. Dong,Matteo Bianchi,Gregory Andrews,Sharadha Sakthikumar,Jessika Nordin,Ananya Roy,Matthew J. Christmas,Voichita D. Marinescu,Chao Wang,Ola Wallerman,James R. Xue,Shuyang Yao,Quan Sun,Jin P. Szatkiewicz,Jia Wen,Laura Huckins,Alyssa J. Lawler,Kathleen C. Keough,Zhili Zheng,Jian Zeng,Naomi R. Wray,Yun Li,Jessica Johnson,Jiawen Chen,Benedict Paten,Steven K. Reilly,Graham M. Hughes,Zhiping Weng,Katherine S. Pollard,Andreas R. Pfenning,Karin Forsberg-Nilsson,Elinor K. Karlsson,Kerstin Lindblad‐Toh,Gregory Andrews,Joel Armstrong,Matteo Bianchi,Bruce W. Birren,Kevin R. Bredemeyer,Ana M. Breit,Matthew J. Christmas,Hiram Clawson,Joana Damas,Federica Di Palma,Mark Diekhans,Michael X. Dong,Eduardo Eizirik,Kaili Fan,Cornelia Fanter,Nicole M. Foley,Karin Forsberg-Nilsson,Carlos J. Garcia,John Gatesy,Steven Gazal,Diane P. Genereux,Linda Goodman,Jenna Grimshaw,Michaela K. Halsey,Andrew Harris,Glenn Hickey,Michael Hiller,Allyson G. Hindle,Robert Hubley,Graham M. Hughes,Jeremy Johnson,David Juan,Irene M. Kaplow,Elinor K. Karlsson,Kathleen C. Keough,Bogdan Kirilenko,Klaus‐Peter Koepfli,Jennifer M. Korstian,Amanda Kowalczyk,Sergey V. Kozyrev,Alyssa J. Lawler,Colleen Lawless,Thomas Lehmann,Danielle L. Levesque,Harris A. Lewin,Xue Li,Abigail Lind,Kerstin Lindblad‐Toh,Ava Mackay-Smith,Voichita D. Marinescu,Tomàs Marquès-Bonet,Victor C. Mason,Jennifer R. S. Meadows,Wynn K. Meyer,Jill E. Moore,Lucas R. Moreira,Diana D. Moreno-Santillán,Kathleen M. Morrill,Gerard Muntané,William J. Murphy,Arcadi Navarro,Martin Nweeia,Sylvia Ortmann,Austin Osmanski,Benedict Paten,Nicole S. Paulat,Andreas R. Pfenning,BaDoi N. Phan,Katherine S. Pollard,Henry E. Pratt,David A. Ray,Steven K. Reilly,Jeb R. Rosen,Irina Ruf,Louise Ryan,Oliver A. Ryder,Pardis C. Sabeti,Daniel E. Schäffer,Aitor Serres,Beth Shapiro,Arian F. A. Smit,Mark S. Springer,Chaitanya Srinivasan,Cynthia Steiner,Jessica M. Storer,Kevin A. Sullivan,Patrick F. Sullivan,Elisabeth Sundström,Megan A. Supple,Ross Swofford,Joy-El Talbot,Emma C. Teeling,Jason Turner-Maier,Alejandro Valenzuela,Franziska Wagner,Ola Wallerman,Chao Wang,Juehan Wang,Zhiping Weng,Aryn P. Wilder,Morgan Wirthlin,James R. Xue,Xiaomeng Zhang

出处

期刊：Science [American Association for the Advancement of Science (AAAS)]
日期：2023-04-28 卷期号：380 (6643) 被引量：26

链接

nih.govdoi.org

标识

DOI：10.1126/science.abn2937

摘要

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.

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

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