Alexander A. Konstantinov scite author profile

The crystal structures of cytochrome c oxidase from both bovine and Paracoccus denitrificans reveal two putative proton input channels that connect the heme-copper center, where dioxygen is reduced, to the internal aqueous phase. In this work we have examined the role of these two channels, looking at the effects of site-directed mutations of residues observed in each of the channels of the cytochrome c oxidase from Rhodobacter sphaeroides. A photoelectric technique was used to monitor the time-resolved electrogenic proton transfer steps associated with the photo-induced reduction of the ferryl-oxo form of heme a 3 (Fe 4؉ ‫؍‬ O 2؊ ) to the oxidized form (Fe 3؉ OH ؊ ). This redox step requires the delivery of a ''chemical'' H ؉ to protonate the reduced oxygen atom and is also coupled to proton pumping. It is found that mutations in the K channel (K362M and T359A) have virtually no effect on the ferryl-oxo-to-oxidized (F-to-Ox) transition, although steady-state turnover is severely limited. In contrast, electrogenic proton transfer at this step is strongly

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Time-resolved single-turnover of ba3 oxidase from Thermus thermophilus

Siletsky

Belevich

Jasaitis

et al. 2007

Biochimica et Biophysica Acta (BBA) - Bioenergetics

160

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The kinetics of the oxidation of fully-reduced ba(3) cytochrome c oxidase from Thermus thermophilus by oxygen were followed by time-resolved optical spectroscopy and electrometry. Four catalytic intermediates were resolved during this reaction. The chemical nature and the spectral properties of three intermediates (compounds A, P and O) reproduce the general features of aa(3)-type oxidases. However the F intermediate in ba(3) oxidase has a spectrum identical to the P state. This indicates that the proton taken up during the P-->F transition does not reside in the binuclear site but is rather transferred to the covalently cross-linked tyrosine near that site. The total charge translocation associated with the F-->O transition in ba(3) oxidase is close to that observed during the F-->O transition in the aa(3) oxidases. However, the P(R)-->F transition is characterized by significantly lower charge translocation, which probably reflects the overall lower measured pumping efficiency during multiple turnovers.

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Time-resolved electrometric and optical studies on cytochrome bd suggest a mechanism of electron-proton coupling in the di-heme active site

Belevich

Borisov

Zhang

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

119

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