Extremely rare variants reveal patterns of germline mutation rate heterogeneity in humans

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作者
Jedidiah Carlson
Adam E. Locke
Matthew Flickinger
Matthew Zawistowski
Shawn Levy
Richard M. Myers
Michael Boehnke
Hyun Min Kang
Laura J. Scott
Jun Z. Li
Sebastian Zöllner
机构
[1] University of Michigan,Department of Computational Medicine & Bioinformatics
[2] Washington University,McDonnell Genome Institute & Department of Medicine
[3] University of Michigan,Department of Biostatistics
[4] HudsonAlpha Institute for Biotechnology,Department of Human Genetics
[5] University of Michigan,Department of Psychiatry
[6] University of Michigan,Molecular & Behavioral Neuroscience Institute
[7] University of Michigan,MRC Social Genetic and Developmental Psychiatry Centre, Institute of Psychiatry Psychology and Neuroscience
[8] King’s College London,School of Psychology
[9] Flinders University,Department of Psychology
[10] University of Minnesota,Department of Psychiatry and the Behavioral Sciences
[11] University of Southern California,Department of Epidemiology and Biostatistics
[12] Michigan State University,Department of Psychiatry
[13] SUNY Downstate Medical Center,Molecular Neuropsychiatry and Development Laboratory
[14] SUNY Downstate Medical Center,undefined
[15] Campbell Family Mental Health Research Institute,undefined
来源
Nature Communications | / 9卷
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摘要
A detailed understanding of the genome-wide variability of single-nucleotide germline mutation rates is essential to studying human genome evolution. Here, we use ~36 million singleton variants from 3560 whole-genome sequences to infer fine-scale patterns of mutation rate heterogeneity. Mutability is jointly affected by adjacent nucleotide context and diverse genomic features of the surrounding region, including histone modifications, replication timing, and recombination rate, sometimes suggesting specific mutagenic mechanisms. Remarkably, GC content, DNase hypersensitivity, CpG islands, and H3K36 trimethylation are associated with both increased and decreased mutation rates depending on nucleotide context. We validate these estimated effects in an independent dataset of ~46,000 de novo mutations, and confirm our estimates are more accurate than previously published results based on ancestrally older variants without considering genomic features. Our results thus provide the most refined portrait to date of the factors contributing to genome-wide variability of the human germline mutation rate.
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