Ancestral Alleles and Population Origins: Inferences Depend on Mutation Rate

doi:10.1093/molbev/msm018

MBE Advance Access originally published online on January 30, 2007
Molecular Biology and Evolution 2007 24(4):990-997; doi:10.1093/molbev/msm018

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© The Author 2007. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Research Articles

Ancestral Alleles and Population Origins: Inferences Depend on Mutation Rate

Alan R. Rogers^*, Stephen Wooding, Chad D. Huff^*, Mark A. Batzer and Lynn B. Jorde

^* Department of Anthropology, University of Utah
Department of Human Genetics, University of Utah School of Medicine
Department of Biological Sciences, Biological Computation and Visualization Center, Center for BioModular Multi-Scale Systems, Louisiana State University

E-mail: rogers{at}anthro.utah.edu.

Accepted for publication January 19, 2007.

Previous studies have found that at most human loci, ancestralalleles are "African," in the sense that they reach their highestfrequency there. Conventional wisdom holds that this reflectsa recent African origin of modern humans.

This paper challenges that view by showing that the empiricalpattern (of elevated allele frequencies within Africa) is notas pervasive as has been thought. We confirm this African biasin a set of mainly protein-coding loci, but find a smaller biasin Alu insertion polymorphisms, and an even smaller bias innoncoding loci. Thus, the strong bias that was originally observedmust reflect some factor that varies among data sets—somethingother than population history. This factor may be the per-locusmutation rate: the African bias is most pronounced in loci wherethis rate is high.

The distribution of ancestral alleles among populations hasbeen studied using 2 methods. One of these involves comparingthe fractions of loci that reach maximal frequency in each population.The other compares the average frequencies of ancestral alleles.The first of these methods reflects history in a manner thatdepends on the mutation rate. When that rate is high, ancestralalleles at most loci reach their highest frequency in the ancestralpopulation. When that rate is low, the reverse is true. Theother method—comparing averages—is unresponsive.Average ancestral allele frequencies are affected neither bymutation rate nor by the history of population size and migration.In the absence of selection and ascertainment bias, they shouldbe the same everywhere. This is true of one data set, but notof 2 others. This also suggests the action of some factor, suchas selection or ascertainment bias, that varies among data sets.

Key Words: ancestral allele • last common ancestor • human evolutionary history • replacement hypothesis • multiregional hypothesis • diffusion wave hypothesis

Yoko Satta, Associate Editor

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