Estimation of Past Demographic Parameters From the Distribution of Pairwise Differences When the Mutation Rates Vary Among Sites: Application to Human Mitochondrial DNA

Estimation of Past Demographic Parameters From the Distribution of Pairwise Differences When the Mutation Rates Vary Among Sites: Application to Human Mitochondrial DNA

Stefan Schneider^a and Laurent Excoffier^a
^a Genetics and Biometry Laboratory, Department of Anthropology and Ecology, University of Geneva, CP 511 1211 Geneva 24, Switzerland

Corresponding author: Laurent Excoffier, Genetics and Biometry Lab, Department of Anthropology and Ecology, University of Geneva, CP 511 1211 Geneva 24, Switzerland., laurent.excoffier{at}anthro.unige.ch (E-mail)

Communicating editor: G. B. GOLDING

Distributions of pairwise differences often called "mismatchdistributions" have been extensively used to estimate the demographicparameters of past population expansions. However, these estimationsrelied on the assumption that all mutations occurring in theancestry of a pair of genes lead to observable differences (theinfinite-sites model). This mutation model may not be very realistic,especially in the case of the control region of mitochondrialDNA, where this methodology has been mostly applied. In thisarticle, we show how to infer past demographic parameters byexplicitly taking into account a finite-sites model with heterogeneityof mutation rates. We also propose an alternative way to deriveconfidence intervals around the estimated parameters, basedon a bootstrap approach. By checking the validity of these confidenceintervals by simulations, we find that only those associatedwith the timing of the expansion are approximately correctlyestimated, while those around the population sizes are overlylarge. We also propose a test of the validity of the estimateddemographic expansion scenario, whose proper behavior is verifiedby simulation. We illustrate our method with human mitochondrialDNA, where estimates of expansion times are found to be 10–20%larger when taking into account heterogeneity of mutation ratesthan under the infinite-sites model.

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