Abstract
In species with fertile XY females, such as South American field mice (genus Akodon), there are two types of mitochondrial DNA (mtDNA), one passing from XX females and one from XY females. The XX mothers pass their mtDNA to their XX daughters. The XY mothers, however, produce both XX and XY daughters. Because of this breeding scheme, the XY mtDNA remains isolated whereas the XX lineage is continuously invaded by XY mtDNA haplotypes. Using a set of recursion equations, I predicted that XY mtDNA haplotypes should rapidly spread through entire populations composed of both XX and XY females. I examined patterns of nucleotide polymorphism and divergence from the mtDNA control region as well as phylogenetic patterns for evidence of an mtDNA sweep. I compared patterns in two sister species, Akodon boliviensis and Akodon azarae, that are composed of 35% and 10% XY females, respectively. Akodon boliviensis XY females are found in all clades of a phylogenetic mtDNA tree consistent with the spread of mtDNA haplotypes. In addition, A. azarae mtDNA haplotypes showed no deviations from neutrality. These results, in combination with high levels of mtDNA nucleotide diversity in XY females, suggest an ancient origin (>10(4) generations) of XY females in both A. boliviensis and A. azarae.
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