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  • Title: Electron transfer process in cytochrome bd-type ubiquinol oxidase from Escherichia coli revealed by pulse radiolysis.
    Author: Kobayashi K, Tagawa S, Mogi T.
    Journal: Biochemistry; 1999 May 04; 38(18):5913-7. PubMed ID: 10231544.
    Abstract:
    Cytochrome bd is a two-subunit ubiquinol oxidase in the aerobic respiratory chain of Escherichia coli and binds hemes b558, b595, and d as the redox metal centers. Taking advantage of spectroscopic properties of three hemes which exhibit distinct absorption peaks, we investigated electron transfer within the enzyme by the technique of pulse radiolysis. Reduction of the hemes in the air-oxidized, resting-state enzyme, where heme d exists in mainly an oxygenated form and partially an oxoferryl and a ferric low-spin forms, occurred in two phases. In the faster phase, radiolytically generated N-methylnicotinamide radicals simultaneously reduced the ferric hemes b558 and b595 with a second-order rate constant of 3 x 10(8) M-1 s-1, suggesting that a rapid equilibrium occurs for electron transfer between two b-type hemes long before 10 micros. In the slower phase, an intramolecular electron transfer from heme b to the oxoferryl and the ferric heme d occurred with the first-order rate constant of 4.2-5.6 x 10(2) s-1. In contrast, the oxygenated heme d did not exhibit significant spectral change. Reactions with the fully oxidized and hydrogen peroxide-treated forms demonstrated that the oxidation and/or ligation states of heme d do not affect the heme b reduction. The following intramolecular electron transfer transformed the ferric and oxoferryl forms of heme d to the ferrous and ferric forms, respectively, with the first-order rate constants of 3.4 x 10(3) and 5.9 x 10(2) s-1, respectively.
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