Abstract.
The superfamily of quinol and cytochrome c terminal oxidase complexes is related by a homologous subunit containing six positionally conserved histidines that ligate a low-spin heme and a heme–copper dioxygen activating and reduction center. On the basis of the structural similarities of these enzymes, it has been postulated that all members of this superfamily catalyze proton translocation by similar mechanisms and that the CuA center found in most cytochrome c oxidase complexes serves merely as an electron conduit shuttling electrons from ferrocytochrome c into the hydrophobic core of the enzyme. The recent characterization of cytochrome c oxidase complexes and structurally similar cytochrome c:nitric oxide oxidoreductase complexes without CuA centers has strengthened this view. However, recent experimental evidence has shown that there are two ubiquinone(ol) binding sites on the Escherichia coli cytochrome bo 3 complex in dynamic equilibrium with the ubiquinone(ol) pool, thereby strengthening the argument for a Q(H2)-loop mechanism of proton translocation [Musser SM et al. (1997) Biochemistry 36:894–902]. In addition, a number of reports suggest that a Q(H2)-loop or another alternate proton translocation mechanism distinct from the mitochondrial aa 3 -type proton pump functions in Sulfolobus acidocaldarius terminal oxidase complexes. The possibility that a primitive quinol oxidase complex evolved to yield two separate complexes, the cytochrome bc 1 and cytochrome c oxidase complexes, is explored here. This idea is the basis for an evolutionary tree constructed using the notion that respiratory complexity and efficiency progressively increased throughout the evolutionary process. The analysis suggests that oxygenic respiration is quite an old process and, in fact, predates nitrogenic respiration as well as reaction-center photosynthesis.
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Received: 11 June 1997 / Accepted: 30 October 1997
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Musser, S., Chan, S. Evolution of the Cytochrome c Oxidase Proton Pump. J Mol Evol 46, 508–520 (1998). https://doi.org/10.1007/PL00006332
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DOI: https://doi.org/10.1007/PL00006332