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  • Title: Transient-state reduction and steady-state kinetic studies of menaquinol oxidase from Bacillus subtilis, cytochrome aa3-600 nm. Spectroscopic characterization of the steady-state species.
    Author: Mattatall NR, Cameron LM, Hill BC.
    Journal: Biochemistry; 2001 Nov 06; 40(44):13331-41. PubMed ID: 11683643.
    Abstract:
    Cytochrome aa3-600 or menaquinol oxidase, from Bacillus subtilis, is a member of the heme-copper oxidase family. Cytochrome aa3-600 contains cytochrome a, cytochrome a3, and CuB, and each is coordinated via histidine residues to subunit I. Subunit II of cytochrome aa3-600 lacks CuA, which is a common feature of the cytochrome c oxidase family members. Anaerobic reduction of cytochrome aa3-600 by the substrate analogue 2,3-dimethyl-1,4-naphthoquinone (DMN) resolves two distinct kinetic phases by stopped-flow, single-wavelength spectrometry. Global analysis of time-resolved, multiwavelength spectra shows that during these distinct phases cytochromes a and a3 are both reduced. Cyanide binding to cytochrome a3 enhances the fast phase rate, which in the presence of cyanide can be assigned to cytochrome a reduction, whereas cytochrome a3-cyanide reduction is slow. The steady-state activity of cytochrome aa3-600 exhibits saturation kinetics as a function of DMN concentration with a Km of 300 microM and a maximal turnover of 63.5 s(-1). Global kinetic analysis of steady-state spectra reveals a species that is characteristic of a partially reduced oxygen adduct of cytochrome a3-CuB, whereas cytochrome a remains oxidized. Electron paramagnetic resonance (EPR) spectroscopy of the oxidase in the steady state shows the expected signal from ferricytochrome a, and a new EPR signal at g = 2.01. A model of the catalytic cycle for cytochrome aa3-600 proposes initial electron delivery from DMN to cytochrome a, followed by rapid heme to heme electron transfer, and suggests possible origins of the radical signal in the steady-state form of the enzyme.
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