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Received June 10, 2023; Revised July 8, 2023; Accepted July 11, 2023
An overview of current notions on the mechanism of generation of a transmembrane electric potential difference (Δψ) during the catalytic cycle of a bd-type triheme terminal quinol oxidase is presented in this work. It is suggested that the main contribution to Δψ formation is made by the movement of H+ across the membrane along the intra-protein hydrophilic proton-conducting pathway from the cytoplasm to the active site for oxygen reduction of this bacterial enzyme.
KEY WORDS: respiratory chain, terminal oxidase, cytochrome bd, heme, protonmotive force, membrane potentialDOI: 10.1134/S0006297923100073
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Copyright (C) 2024 BioProt Network All rights reserved. |
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