Yaron Granot scite author profile

Measures of population differentiation, such as F ST , are traditionally derived from the partition of diversity within and between populations. However, the emergence of population clusters from multilocus analysis is a function of genetic structure (departures from panmixia) rather than of diversity. If the populations are close to panmixia, slight differences between the mean pairwise distance within and between populations (low F ST ) can manifest as strong separation between the populations, thus population clusters are often evident even when the vast majority of diversity is partitioned within populations rather than between them. For any given F ST value, clusters can be tighter (more panmictic) or looser (more stratified), and in this respect higher F ST does not always imply stronger differentiation. In this study we propose a measure for the partition of structure, denoted E ST , which is more consistent with results from clustering schemes. Crucially, our measure is based on a statistic of the data that is a good measure of internal structure, mimicking the information extracted by unsupervised clustering or dimensionality reduction schemes. To assess the utility of our metric, we ranked various human (HGDP) population pairs based on F ST and E ST and found substantial differences in ranking order. E ST ranking seems more consistent with population clustering and classification and possibly with geographic distance between populations. Thus, E ST may at times outperform F ST in identifying evolutionary significant differentiation.

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On the Apportionment of Population Structure

Granot

Tal

Skorecki

2016

PLoS ONE

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Measures of population differentiation, such as FST, are traditionally derived from the partition of diversity within and between populations. However, the emergence of population clusters from multilocus analysis is a function of genetic structure (departures from panmixia) rather than of diversity. If the populations are close to panmixia, slight differences between the mean pairwise distance within and between populations (low FST) can manifest as strong separation between the populations, thus population clusters are often evident even when the vast majority of diversity is partitioned within populations rather than between them. For any given FST value, clusters can be tighter (more panmictic) or looser (more stratified), and in this respect higher FST does not always imply stronger differentiation. In this study we propose a measure for the partition of structure, denoted EST, which is more consistent with results from clustering schemes. Crucially, our measure is based on a statistic of the data that is a good measure of internal structure, mimicking the information extracted by unsupervised clustering or dimensionality reduction schemes. To assess the utility of our metric, we ranked various human (HGDP) population pairs based on FST and EST and found substantial differences in ranking order. EST ranking seems more consistent with population clustering and classification and possibly with geographic distance between populations. Thus, EST may at times outperform FST in identifying evolutionary significant differentiation.

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Yaron Granot

A Biallelic Mutation in the Homologous Recombination Repair Gene SPIDR Is Associated With Human Gonadal Dysgenesis

On the Apportionment of Population Structure

On the Apportionment of Population Structure

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