AI Article Synopsis
- Paracoccus pantotrophus cytochrome cd(1) is an enzyme that facilitates bacterial respiration, capable of reducing nitrite, hydroxylamine, and oxygen as electron acceptors in various conditions.
- The enzyme shows a high turnover number of up to 121 s(-1) when reducing nitrite at pH 5.8, and requires prior reduction for optimal catalytic activity with different electron donors.
- The study highlights a concept called pseudospecificity, where proteins with different structural designs can interact with the same electron acceptor, and also hints at a unique hydroxylamine activity that could be a characteristic of cytochrome c enzymes.
Article Abstract
Paracoccus pantotrophus cytochrome cd(1) is an enzyme of bacterial respiration, capable of using nitrite in vivo and also hydroxylamine and oxygen in vitro as electron acceptors. We present a comprehensive analysis of the steady state kinetic properties of the enzyme with each electron acceptor and three electron donors, pseudoazurin and cytochrome c(550), both physiological, and the non-physiological horse heart cytochrome c. At pH 5.8, optimal for nitrite reduction, the enzyme has a turnover number up to 121 s(-1) per d(1) heme, significantly higher than previously observed for any cytochrome cd(1). Pre-activation of the enzyme via reduction is necessary to establish full catalytic competence with any of the electron donor proteins. There is no significant kinetic distinction between the alternative physiological electron donors in any respect, providing support for the concept of pseudospecificity, in which proteins with substantially different tertiary structures can transfer electrons to the same acceptor. A low level hydroxylamine disproportionase activity that may be an intrinsic property of cytochromes c is also reported. Important implications for the enzymology of P. pantotrophus cytochrome cd(1) are discussed and proposals are made about the mechanism of reduction of nitrite, based on new observations placed in the context of recent rapid reaction studies.
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| http://dx.doi.org/10.1074/jbc.M108944200 | DOI Listing |
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