Journal article
Widespread signatures of natural selection across human complex traits and functional genomic categories
J Zeng, A Xue, L Jiang, LR Lloyd-Jones, Y Wu, H Wang, Z Zheng, L Yengo, KE Kemper, ME Goddard, NR Wray, PM Visscher, J Yang
Nature Communications | Published : 2021
Abstract
Understanding how natural selection has shaped genetic architecture of complex traits is of importance in medical and evolutionary genetics. Bayesian methods have been developed using individual-level GWAS data to estimate multiple genetic architecture parameters including selection signature. Here, we present a method (SBayesS) that only requires GWAS summary statistics. We analyse data for 155 complex traits (n = 27k–547k) and project the estimates onto those obtained from evolutionary simulations. We estimate that, on average across traits, about 1% of human genome sequence are mutational targets with a mean selection coefficient of ~0.001. Common diseases, on average, show a smaller numb..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
We thank V. Hivert for helpful discussions. This research was supported by the Australian Research Council (DP160101343, DP160101056, and FT180100186), the Australian National Health and Medical Research Council (1107258, 1078901, 1078037, 1113400, and 1177268) and the Westlake Education Foundation. This study makes use of data from dbGaP (accession: phs000788) and UK Biobank Resource (application number: 12505). A full list of acknowledgements for these datasets can be found in the Supplementary Information.