Negative selection in humans and fruit flies involves synergistic epistasis

Publication date

2017-05-05

Authors

Sohail, Mashaal
Vakhrusheva, Olga A
Sul, Jae Hoon
Pulit, Sara
Francioli, Laurent C
van den Berg, LeonardISNI 0000000388137302
Veldink, JanORCID 0000-0001-5572-9657ISNI 0000000392612911
de Bakker, Paul I W
Bazykin, Georgii A
Kondrashov, Alexey S

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Article

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taverne

Abstract

Negative selection against deleterious alleles produced by mutation influences within-population variation as the most pervasive form of natural selection. However, it is not known whether deleterious alleles affect fitness independently, so that cumulative fitness loss depends exponentially on the number of deleterious alleles, or synergistically, so that each additional deleterious allele results in a larger decrease in relative fitness. Negative selection with synergistic epistasis should produce negative linkage disequilibrium between deleterious alleles and, therefore, an underdispersed distribution of the number of deleterious alleles in the genome. Indeed, we detected underdispersion of the number of rare loss-of-function alleles in eight independent data sets from human and fly populations. Thus, selection against rare protein-disrupting alleles is characterized by synergistic epistasis, which may explain how human and fly populations persist despite high genomic mutation rates.

Keywords

Taverne, Journal Article, Research Support, Non-U.S. Gov't, Research Support, N.I.H., Extramural

Citation

Sohail, M, Vakhrusheva, O A, Sul, J H, Pulit, S L, Francioli, L C, van den Berg, L H, Veldink, J H, de Bakker, P I W, Bazykin, G A, Kondrashov, A S, Sunyaev, S R & Genome of the Netherlands Consortium 2017, 'Negative selection in humans and fruit flies involves synergistic epistasis', Science, vol. 356, no. 6337, pp. 539-542. https://doi.org/10.1126/science.aah5238