Nuclear integrations of mitochondrial DNA in primates: Inference of associated mutational events

Abstract To infer the possible mutational events taking place along the interorganellar transfer of genetic material from mitochondria to the nucleus, four integrations of mitochondrial DNA (mtDNA) in the human genome were characterized together with their flanking nuclear sequences. By determining their presence/absence status in different primate species, these integrations were inferred to have occurred on the lineages leading to catarrhines (Old World monkeys and hominoids), to hominoids and to humans, respectively. In case of a polymorphic state, with respect to its presence in a certain species, each preintegration sequence was either cloned in the same species or in a primate taxon that branched off before the transfer of the mtDNA to the nucleus took place. For the four mtDNA integrations presented here, random mobilization of the mtDNA and differing mechanisms for generating free ends in the nuclear target sequences can be inferred. Additionally, no common sequence features at the preintegration sites could be observed for these integrations. Moreover, the comparisons of the sites before and after integration suggest different ways of integration. Thus, mtDNA integrations represent unique molecular recombinations in the evolutinary history and can, according to their presence/absence status in different species, help to determine the branching order in phylogenetic trees.