Reduced X-Linked Diversity in Derived Populations of House Mice

John F. Baines¹^,2 and Bettina Harr¹^,3

Institute for Genetics, Department of Evolutionary Genetics, University of Cologne, 50674 Cologne, Germany

^³ Corresponding author: Institute for Genetics, Department of Evolutionary Genetics, University of Cologne, Zülpicher Strasse 47, 50674 Cologne, Germany.
E-mail: harrb{at}uni-koeln.de

Contrasting patterns of X-linked vs. autosomal diversity maybe indicative of the mode of selection operating in naturalpopulations. A number of observations have shown reduced X-linked(or Z-linked) diversity relative to autosomal diversity in variousorganisms, suggesting a large impact of genetic hitchhiking.However, the relative contribution of other forces such as populationbottlenecks, variation in reproductive success of the two sexes,and differential introgression remains unclear. Here, we survey13 loci, 6 X-linked and 7 autosomal, in natural populationsof the house mouse (Mus musculus) subspecies complex. We studiedseven populations of three different subspecies, the easternhouse mouse M. musculus castaneus, the central house mouse M.m. musculus, and the western house mouse M. m. domesticus, includingputatively ancestral and derived populations for each. All populationsdisplay lower diversity on the X chromosomes relative to autosomes,and this effect is most pronounced in derived populations. Toassess the role of demography, we fit the demographic parametersthat gave the highest likelihood of the data using coalescentsimulations. We find that the reduction in X-linked diversityis too large to be explained by a simple demographic model inat least two of four derived populations. These observationsare also not likely to be explained by differences in reproductivesuccess between males and females. They are consistent witha greater impact of positive selection on the X chromosome,and this is supported by the observation of an elevated K_A andelevated K_A/K_S ratios on the rodent X chromosome. A second contributionmay be that the X chromosome less readily introgresses acrosssubspecies boundaries.

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