Abstract
Pyranose 2-oxidase (POx), a member of the GMC family of flavoproteins, catalyzes the regioselective oxidation of aldopyranoses at position C2 to the corresponding 2-ketoaldoses. During the first half-reaction, FAD is reduced to FADH2 and reoxidized in the second half-reaction by reducing molecular oxygen to H2O2. Alternative electron acceptors including quinones, radicals or chelated metal ions show significant and in some cases even higher activity. While oxygen as cheap and abundantly available electron acceptor is favored for many processes, reduced oxygen reactivity is desirable for some applications such as in biosensors/biofuel cells because of reduced oxidative damages to the biocatalyst from concomitant H2O2 production as well as reduced electron “leakage” to oxygen. The reactivity of flavoproteins with oxygen is of considerable scientific interest, and the determinants of oxygen activation and reactivity are the subject of numerous studies. We applied site-saturation mutagenesis on a set of eleven amino acids around the active site based on the crystal structure of the enzyme. Using microtiter plate screening assays with peroxidase/2,2′-azino-bis(3-ethylbenzthiazoline-6-sulphonic acid) and 2,6-dichlorophenolindophenol, variants of POx with decreased oxidase activity and maintained dehydrogenase activity were identified. Variants T166R, Q448H, L545C, L547R and N593C were characterized with respect to their apparent steady-state constants with oxygen and the alternative electron acceptors DCPIP, 1,4-benzoquinone and ferricenium ion, and the effect of the mutations was rationalized based on structural properties.
Highlights
Pyranose 2-oxidase (POx; pyranose:oxygen 2-oxidoreductase; synonym, glucose 2-oxidase; EC1.1.3.10) from Trametes multicolor (TmPOx; synonym, Trametes ochracea [1]) is a member of the glucose-methanol-choline (GMC) family of oxidoreductases [2,3,4]
An assay with 100 mM D-glucose as electron donor and DCPIP as alternative electron acceptor was performed in parallel [48]
Five variants showing less than 5% oxidase activity and at least 50% of dehydrogenase activity (DCPIP assay) compared to the wild type were selected for further study
Summary
Pyranose 2-oxidase (POx; pyranose:oxygen 2-oxidoreductase; synonym, glucose 2-oxidase; EC1.1.3.10) from Trametes multicolor (TmPOx; synonym, Trametes ochracea [1]) is a member of the glucose-methanol-choline (GMC) family of oxidoreductases [2,3,4]. POx catalyzes the regioselective oxidation of aldopyranoses, preferrentially D-glucose [1], at position C2 and the corresponding 2ketoaldoses are formed [9]. During this first half reaction FAD is reduced to FADH2 (eq). Possible alternative electron acceptors include quinones (eq3), radicals or chelated metal ions [1]. This reaction catalyzed by POx is typically found in flavoprotein oxidoreductases [11,12] and is of the Ping Pong Bi Bi type [13].
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