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Oxidases biocatalytic systems

An additional condition may be imposed, even when a cofactor-independent enzyme is used, if a mediator molecule is involved in the electron transfer process, as is often the case with oxidases. Laccases, for example, may employ small-molecule diffusible mediator compounds in their redox cycle to shuttle electrons between the redox center of the enzyme and the substrate or electrode (Scheme 3.1) [1, 2]. Similarly, certain dehydrogenases utiHze pyrroloquinoline quinone. In biocatalytic systems, mediators based on metal complexes are often used. [Pg.49]

Figure 6. Electrical wiring of glucose oxidase with ferroeene units tethered to lysine residues of the protein backbone (cf. Figure 5B). (A) Cyelic voltammograms of a bare Au electrode in the presence of modified GOx (10 mg mL ) and glucose at (a) 0, (b) 0.8 and (c) 5 mM. Experiments were performed in 0.085 M phosphate bulfer, pH 7.0, under argon. (B) Glucose concentration dependence of the current at 0.26 V vs. SCE developed by the biocatalytic system (using a larger electrode). Adapted from Ref. [83] with permission. Figure 6. Electrical wiring of glucose oxidase with ferroeene units tethered to lysine residues of the protein backbone (cf. Figure 5B). (A) Cyelic voltammograms of a bare Au electrode in the presence of modified GOx (10 mg mL ) and glucose at (a) 0, (b) 0.8 and (c) 5 mM. Experiments were performed in 0.085 M phosphate bulfer, pH 7.0, under argon. (B) Glucose concentration dependence of the current at 0.26 V vs. SCE developed by the biocatalytic system (using a larger electrode). Adapted from Ref. [83] with permission.
Biocatalytic ledox reactions offer great synthetic utility to organic chemists. The majority of oxidase-catalyzed preparative bioconversions are still performed using a whole-ceU technique, despite the fact that the presence of more than one oxidoreductase in cells often leads to product degradation and lower selectivity. Fortunately, several efficient cofactor regeneration systems have been developed (160), making some cell-free enzymatic bioconversions economically feasible (161,162). [Pg.347]

Bioelectrocatalysis involves the coupling of redox enzymes with electrochemical reactions [44]. Thus, oxidizing enzymes can be incorporated into redox systems applied in bioreactors, biosensors and biofuel cells. While biosensors and enzyme electrodes are not synthetic systems, they are, essentially, biocatalytic in nature (Scheme 3.5) and are therefore worthy of mention here. Oxidases are frequently used as the biological agent in biosensors, in combinations designed to detect specific target molecules. Enzyme electrodes are possibly one of the more common applications of oxidase biocatalysts. Enzymes such as glucose oxidase or cholesterol oxidase can be combined with a peroxidase such as horseradish peroxidase. [Pg.56]

See other pages where Oxidases biocatalytic systems is mentioned: [Pg.231]    [Pg.41]    [Pg.44]    [Pg.2507]    [Pg.269]    [Pg.595]    [Pg.164]    [Pg.160]    [Pg.421]    [Pg.42]    [Pg.50]    [Pg.196]    [Pg.172]    [Pg.362]    [Pg.212]    [Pg.215]    [Pg.180]    [Pg.2508]    [Pg.2521]    [Pg.2541]    [Pg.118]    [Pg.398]    [Pg.398]    [Pg.495]    [Pg.394]    [Pg.51]    [Pg.1083]    [Pg.173]    [Pg.180]    [Pg.185]    [Pg.367]    [Pg.361]    [Pg.391]    [Pg.397]    [Pg.410]    [Pg.266]   
See also in sourсe #XX -- [ Pg.42 , Pg.43 , Pg.44 , Pg.45 , Pg.46 , Pg.50 , Pg.51 ]



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