The quinone-binding sites of the cytochrome bo3 ubiquinol oxidase from Escherichia coli

Cytochrome bo₃ is the major respiratory oxidase located in the cytoplasmic membrane of Escherichia coli when grown under high oxygen tension. The enzyme catalyzes the 2-electron oxidation of ubiquinol-8 and the 4-electron reduction of dioxygen to water. When solubilized and isolated using dodecylmaltoside, the enzyme contains one equivalent of ubiquinone-8, bound at a high affinity site (Q_H). The quinone bound at the Q_H site can form a stable semiquinone, and the amino acid residues which hydrogen bond to the semiquinone have been identified. In the current work, it is shown that the tightly bound ubiquinone-8 at the Q_H site is not displaced by ubiquinol-1 even during enzyme turnover. Furthermore, the presence of high affinity inhibitors, HQNO and aurachin C1–10, does not displace ubiquinone-8 from the Q_H site. The data clearly support the existence of a second binding site for ubiquinone, the Q_L site, which can rapidly exchange with the substrate pool. HQNO is shown to bind to a single site on the enzyme and to prevent formation of the stable ubisemiquinone, though without displacing the bound quinone. Inhibition of the steady state kinetics of the enzyme indicates that aurachin C1–10 may compete for binding with quinol at the Q_L site while, at the same time, preventing formation of the ubisemiquinone at the Q_H site. It is suggested that the two quinone binding sites may be adjacent to each other or partially overlap.