Abstract
The acquisition of endosymbiotic alphaproteobacteria that gave rise to mitochondria was one of the key events in the origin of eukaryotic cell. To reconstruct this process, it is important to analyze relationships that developed later between eukaryotes and other alphaproteobacteria. Wolbachia pipientis, a bacterium that inhabits cells of numerous terrestrial invertebrates and exerts diverse effects on its hosts, is used as a model. Although Wolbachia is similar to mitochondria in many important features (basic metabolism, small molecule membrane transport, envelope structure, etc.), their relationships with the nucleocytoplasm are different. Mitochondria import most of their required proteins from the nucleocytoplasm and are controlled by the nucleocytoplasmic regulatory systems. On the contrary, Wolbachia exports its proteins into the host’s cytoplasm, thus causing dramatic aberrations in the ontogeny and reproduction of the host. This difference may be due to the fact that most of the protomitochondrial genes had been transferred into the central (nuclear) genome at the early stages of the development of the endosymbiotic system, while Wolbachia genes were not transferred into the nucleus. This fits well with the previously suggested hypothesis that there was a period of rapid lateral gene transfer in the evolution of proto-eukaryotes; the acquisition of mitochondria took place during this period. Later, eukaryotes, and especially metazoans, developed powerful mechanisms for prevention of lateral gene transfer. Therefore, the genes of the newly acquired endosymbionts cannot be transferred into the central genome, and the endosymbionts retain the capacity for selfish evolution.
Published Version
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