The effect of an extreme and prolonged population bottleneck on patterns of deleterious variation:insights from the Greenlandic Inuit

The genetic consequences of population bottlenecks on patterns of deleterious genetic variation in human populations are of tremendous interest. Based on exome sequencing of 18 Greenlandic Inuit we show that the Inuit have undergone a severe ∼20,000-year-long bottleneck. This has led to a markedly m...

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Bibliographic Details
Published in:Genetics
Main Authors: Pedersen, Casper-Emil Tingskov, Lohmueller, Kirk E., Grarup, Niels, Bjerregaard, Peter, Hansen, Torben, Siegismund, Hans Redlef, Moltke, Ida, Albrechtsen, Anders
Format: Article in Journal/Newspaper
Language:English
Published: 2017
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Online Access:https://curis.ku.dk/portal/da/publications/the-effect-of-an-extreme-and-prolonged-population-bottleneck-on-patterns-of-deleterious-variation(fd12d98e-da41-47ef-beb4-7d2ae2805f22).html
https://doi.org/10.1534/genetics.116.193821
http://europepmc.org/articles/pmc5289852?pdf=render
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Summary:The genetic consequences of population bottlenecks on patterns of deleterious genetic variation in human populations are of tremendous interest. Based on exome sequencing of 18 Greenlandic Inuit we show that the Inuit have undergone a severe ∼20,000-year-long bottleneck. This has led to a markedly more extreme distribution of allele frequencies than seen for any other human population tested to date, making the Inuit the perfect population for investigating the effect of a bottleneck on patterns of deleterious variation. When comparing proxies for genetic load that assume an additive effect of deleterious alleles, the Inuit show, at most, a slight increase in load compared to European, East Asian, and African populations. Specifically, we observe <4% increase in the number of derived deleterious alleles in the Inuit. In contrast, proxies for genetic load under a recessive model suggest that the Inuit have a significantly higher load (20% increase or more) compared to other less bottlenecked human populations. Forward simulations under realistic models of demography support our empirical findings, showing up to a 6% increase in the genetic load for the Inuit population across all models of dominance. Further, the Inuit population carries fewer deleterious variants than other human populations, but those that are present tend to be at higher frequency than in other populations. Overall, our results show how recent demographic history has affected patterns of deleterious variants in human populations.