Abstract
Empowered by modern genotyping and large samples, population structure can be accurately described and quantified even when it only explains a fraction of a percent of total genetic variance. This is especially relevant and interesting for humans, where fine-scale population structure can both confound disease-mapping studies and reveal the history of migration and divergence that shaped our species' diversity. Here we review notable recent advances in the detection, use, and understanding of population structure. Our work addresses multiple areas where substantial progress is being made: improved statistics and models for better capturing differentiation, admixture, and the spatial distribution of variation; computational speed-ups that allow methods to scale to modern data; and advances in haplotypic modeling that have wide ranging consequences for the analysis of population structure. We conclude by outlining four important open challenges: the limitations of discrete population models, uncertainty in individual origins, the incorporation of both fine-scale structure and ancient DNA in parametric models, and the development of efficient computational tools, particularly for haplotype-based methods.
Highlights
Recent advances in the study of fine-scale population structure in humans John Novembre1,2 and Benjamin M Peter1
Our work addresses multiple areas where substantial progress is being made: improved statistics and models for better capturing differentiation, admixture, and the spatial distribution of variation; computational speed-ups that allow methods to scale to modern data; and advances in haplotypic modeling that have wide ranging consequences for the analysis of population structure
The departure from random mating predictions due to population differentiation has a classic quantitative measure, called FST, which appropriately takes on values of 5–15% in global samples of human populations [1,2,3]
Summary
Edited by Dobzhansky T, Hecht MK, Steere WC. 2. The 1000 Genomes Project Consortium: A global reference for human genetic variation. 3. Edge MD, Rosenberg NA: Implications of the apportionment of human genetic diversity for the apportionment of human phenotypic diversity. Stud Hist Philos Biol Biomed Sci 2015, 52:32-45. A thoughtful review and analysis of a simple model to address the implications of population differentiation on neutral quantitative trait differentiation
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