Localization of adaptive variants in human genomes using averaged one-dependence estimation

DOI

10.1038/s41467-018-03100-7

Authors

Lauren Alpert Sugden, Brown University
Elizabeth G. Atkinson, Stony Brook University
Annie P. Fischer, Brown University
Stephen Rong, Brown University
Brenna M. Henn, Stony Brook University
Sohini Ramachandran, Brown University

Document Type

Journal Article

Publication Date

12-1-2018

Publication Title

Nature Communications

Volume

9

Issue

1

Abstract

Statistical methods for identifying adaptive mutations from population genetic data face several obstacles: Assessing the significance of genomic outliers, integrating correlated measures of selection into one analytic framework, and distinguishing adaptive variants from hitchhiking neutral variants. Here, we introduce SWIF(r), a probabilistic method that detects selective sweeps by learning the distributions of multiple selection statistics under different evolutionary scenarios and calculating the posterior probability of a sweep at each genomic site. SWIF(r) is trained using simulations from a user-specified demographic model and explicitly models the joint distributions of selection statistics, thereby increasing its power to both identify regions undergoing sweeps and localize adaptive mutations. Using array and exome data from 45 ‡Khomani San hunter-gatherers of southern Africa, we identify an enrichment of adaptive signals in genes associated with metabolism and obesity. SWIF(r) provides a transparent probabilistic framework for localizing beneficial mutations that is extensible to a variety of evolutionary scenarios.

Open Access

Gold

Repository Citation

Sugden, L., Atkinson, E., Fischer, A., Rong, S., Henn, B., & Ramachandran, S. (2018). Localization of adaptive variants in human genomes using averaged one-dependence estimation. Nature Communications, 9 (1). https://doi.org/10.1038/s41467-018-03100-7