Human adaptation and population differentiation in the light of ancient genomes

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Abstract

The influence of positive selection sweeps in human evolution is increasingly debated, although our ability to detect them is hampered by inherent uncertainties in the timing of past events. Ancient genomes provide snapshots of allele frequencies in the past and can help address this question. We combine modern and ancient genomic data in a simple statistic (DAnc) to time allele frequency changes, and investigate the role of drift and adaptation in population differentiation. Only 30% of the most strongly differentiated alleles between Africans and Eurasians changed in frequency during the colonization of Eurasia, but in Europe these alleles are enriched in genic and putatively functional alleles to an extent only compatible with local adaptation. Adaptive alleles-especially those associated with pigmentation-are mostly of hunter-gatherer origin, although lactose persistence arose in a haplotype present in farmers. These results provide evidence for a role of local adaptation in human population differentiation.

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Key, F. M., Fu, Q., Romagne, F., Lachmann, M., & Andres, A. M. (2016). Human adaptation and population differentiation in the light of ancient genomes. Nature Communications, 7. https://doi.org/10.1038/ncomms10775

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