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Electrochemical immobilisation of enzymes. Part 4. - Co-immobilisation of glucose oxidase and ferro/ferricyanide in poly(N-methylpyrrole) films

机译：酶的电化学固定化。第4部分-聚（N-甲基吡咯）膜中葡萄糖氧化酶和铁/铁氰化物的共固定化

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Glucose oxidase and ferro/ferricyanide can be co-immobilised in poly(N-methylpyrrole) films. The two species compete for incorporation into the films so that on increasing the concentration of enzyme in the growth solution less ferro/ferricyanide is incorporated into the film, and vice versa. The ferro/ferricyanide entrapped within the film acts as a redox mediator for the oxidation of the enzyme at 0.45 V vs. SCE. Studies of the effect of variation of film thickness, glucose concentration, enzyme loading and ferro/ferricyanide loading are consistent with a model in which diffusion and enzyme-catalysed reaction within the film are coupled. Analysis of data from these experiments allows the rate parameters for these processes to be determined. These data are compared with previous results for oxygen mediation in poly(N-methylpyrrole) films.

机译：葡萄糖氧化酶和铁/铁氰化物可以共固定在聚（N-甲基吡咯）薄膜中。这两种物质竞争进入膜中，从而在增加生长溶液中酶的浓度时，较少的铁/铁氰化物被掺入膜中，反之亦然。包埋在薄膜中的铁/铁氰化物充当氧化还原介质，在0.45 V vs. SCE下酶氧化。对膜厚，葡萄糖浓度，酶负载和铁/铁氰化物负载变化的影响的研究与膜内扩散和酶催化反应耦合的模型一致。通过对这些实验数据的分析，可以确定这些过程的速率参数。将这些数据与以前在聚（N-甲基吡咯）薄膜中进行氧介导的结果进行比较。

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Bartlett, P. N. (Philip); Ali, Z. (Zulfiqur); Eastwick-Field, V. M. (Vanessa);
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年度 1992
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Electrochemical immobilisation of enzymes. Part 4. - Co-immobilisation of glucose oxidase and ferro/ferricyanide in poly(N-methylpyrrole) films

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