Leveraging Base-pair Mammalian Constraint to Understand Genetic Variation and Human Disease

Overview

Journal Science

Specialty Science

Date 2023 Apr 27

PMID 37104612

Authors

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 Xue

Shuyang Yao

Quan Sun

Jin Szatkiewicz

Jia Wen

Laura M Huckins

Alyssa 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

Affiliations

Soon will be listed here.

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.

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