Flavin-dependent alkyl hydroperoxide reductase from Salmonella typhimurium. 1. Purification and enzymatic activities of overexpressed AhpF and AhpC proteins (VSports app下载)
- PMID: 8555198
- DOI: 10.1021/bi951887s
Flavin-dependent alkyl hydroperoxide reductase from Salmonella typhimurium. 1. Purification and enzymatic activities of overexpressed AhpF and AhpC proteins
Abstract (V体育ios版)
The two components, AhpF and AhpC, of the Salmonella typhimurium alkyl hydroperoxide reductase enzyme system have been overexpressed and purified from Escherichia coli for investigations of their catalytic properties. Recombinant proteins were isolated in high yield (25-33 mg per liter of bacterial culture) and were shown to impart a high degree of protection against killing by cumene hydroperoxide to the host E. coli cells. We have developed quantitative enzymatic assays for AhpF alone and for the combined AhpF/AhpC system which have allowed us to address such issues as substrate specificity and inhibition by thiol reagents for each protein VSports手机版. All assays gave identical results whether overexpressed S. typhimurium proteins from E. coli or proteins isolated directly from S. typhimurium were used. Anaerobic hydroperoxide reductase assays have demonstrated that cumene hydroperoxide, ethyl hydroperoxide, and hydrogen peroxide can all be reduced by the combined enzyme system. AhpF possesses multiple pyridine nucleotide-dependent activities [5,5'-dithiobis(2-nitrobenzoic acid) (DTNB) reductase, oxidase, transhydrogenase, and, in the presence of AhpC, peroxide reductase activities]. Although AhpF can use either NADH or NADPH as the electron donor for these activities, NADH is the preferred reductant (Km,app of AhpF for NADH was more than 2 orders of magnitude lower than that for NADPH when analyzed using DTNB reductase assays). Thiol-modifying reagents react readily with each reduced protein, leading to complete loss of hydroperoxide and DTNB reductase activities. In contrast, thiol modification of reduced AhpF does not affect transhydrogenase or oxidase activities. These data provide the first direct evidence for a catalytic mechanism for peroxide reduction involving redox-active disulfides within each protein. .
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