Mitochondrial DNA evolution in the Drosophila obscura group.

Abstract

We report a restriction-site study of the mitochondrial DNA (mtDNA) of seven species of the Drosophila obscura group. One species (D. azteca) belongs to the affinis subgroup; the other six species are classified in the obscura subgroup, three of them being from the old-world species (D. obscura, D. ambigua, and D. subobscura) and three from the new-world species (D. pseudoobscura, D. persimilis, and D. miranda). The mtDNA patterns suggest that the phylogeny of the group needs to be revised. The Nearctic obscura species appear as more closely related to D. azteca (affinis subgroup) than to the Palearctic species. The three Palearctic species are, in turn, a very heterogeneous group, with D. obscura no more closely related to D. subobscura and D. ambigua than to D. affinis or the Nearctic obscura species. The rates of mtDNA evolution are variable: some lineages have evolved at rates two or three times greater than others. If an average rate of 0.5% nucleotide substitutions/Myr is assumed, the divergence among the four main lineages in the phylogeny would have occurred 12-15 Myr ago, during the Miocene, which is consistent with biogeographic information.