Suggested mitochondrial ancestry of nonmitochondrial ATP/ADP carrier

One of the major evolutionary events that transformed an endosymbiotic bacterium into a mitochondrion was the acquisition of the ATP/ADP carrier (AAC) in order to supply the host with respiration-derived ATP. Along with the mitochondrial carrier, an unrelated carrier is known, which is characteristic of intracellular chlamydiae, plastids, parasitic intracellular eukaryote Encephalitozoon cuniculi, and the genus Rickettsia of obligate endosymbiotic alpha-proteobacteria. This nonmitochondrial carrier was recently described in rickettsia-like endosymbionts (RLE), a group of obligate intracellular bacteria classified with the order Rickettsiales, which have diverged after free-living alpha-proteobacteria but before sister groups of the Rickettsiaceae assemblage (true rickettsiae) and mitochondria. Published controversial phylogenetic data on nonmitochondrial AAC were re-analyzed in the present work, using both DNA and protein sequences and various methods including Bayesian analysis. The data presented are consistent with the classic endosymbiont theory for the origin of mitochondria and suggest that even the last but one common ancestor of rickettsiae and organelles was an endosymbiotic bacterium, in which AAC first originated.