Evolutionary Dynamics in Structured Populations Under Strong Population Genetic Forces

Abstract In the long-term neutral equilibrium, high rates of migration between subpopulations result in little population differentiation. However, in the short-term, even very abundant migration may not be enough for subpopulations to equilibrate immediately. In this study, we investigate dynamical...

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Veröffentlicht in:G3 : genes - genomes - genetics 2019-10, Vol.9 (10), p.3395-3407
Hauptverfasser: Feder, Alison F, Pennings, Pleuni S, Hermisson, Joachim, Petrov, Dmitri A
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Sprache:eng
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Zusammenfassung:Abstract In the long-term neutral equilibrium, high rates of migration between subpopulations result in little population differentiation. However, in the short-term, even very abundant migration may not be enough for subpopulations to equilibrate immediately. In this study, we investigate dynamical patterns of short-term population differentiation in adapting populations via stochastic and analytical modeling through time. We characterize a regime in which selection and migration interact to create non-monotonic patterns of population differentiation over time when migration is weaker than selection, but stronger than drift. We demonstrate how these patterns can be leveraged to estimate high migration rates using approximate Bayesian computation. We apply this approach to estimate fast migration in a rapidly adapting intra-host Simian-HIV population sampled from different anatomical locations. We find differences in estimated migration rates between different compartments, even though all are above Nem = 1. This work demonstrates how studying demographic processes on the timescale of selective sweeps illuminates processes too fast to leave signatures on neutral timescales.
ISSN:2160-1836
2160-1836
DOI:10.1534/g3.119.400605