Redox Enzymes Immobilized on Electrodes with Solution Cosubstrates. General Procedure for Simulation of Time-Resolved Catalytic Responses

Claude P. Andrieux; Benoit Limoges; Damien Marchal; Jean-Michel Saveant

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Redox Enzymes Immobilized on Electrodes with Solution Cosubstrates. General Procedure for Simulation of Time-Resolved Catalytic Responses

机译：与溶液共底物固定在电极上的氧化还原酶。模拟时间分辨催化反应的一般程序

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In view of the existing and potential applications of electrochemical enzymatic catalysis with redox enzymes immobilized on the electrode surface in biosensors, a numerical calculation procedure for simulating their cyclic voltammetric responses is presented. It is applicable to systems involving a redox cosubstrate in solution. The cosubstrates, substrates, products, and inhibitors are assumed to diffuse linearly (planar electrode) between the electrode and the solution. The reactions in which the various forms of the immobilized enzyme participate may be as numerous and intricate as required by the simulation with no other restriction than the computing time. They may, at will, follow or not follow Michaelis-Menten kinetics. Slow charge-transfer cosubstrates are treated in the framework of Butler-Volmer kinetic law.

机译：鉴于在生物传感器中固定在电极表面上的氧化还原酶电化学酶催化的现有和潜在应用，提出了一种模拟其循环伏安响应的数值计算程序。它适用于在溶液中包含氧化还原共底物的系统。假定共底物，底物，产物和抑制剂在电极和溶液之间线性扩散（平面电极）。各种形式的固定化酶参与的反应可能是模拟所要求的众多和复杂的过程，而计算时间没有其他限制。它们可以随意遵循或不遵循迈克尔尼斯门腾动力学。缓慢的电荷转移共底物在巴特勒-沃尔默动力学定律的框架内进行处理。

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《Analytical chemistry》 |2006年第9期|共6页
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Claude P. Andrieux; Benoit Limoges; Damien Marchal; Jean-Michel Saveant;
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1. Redox Enzymes Immobilized on Electrodes with Solution Cosubstrates. General Procedure for Simulation of Time-Resolved Catalytic Responses [J] . Claude P. Andrieux, Benoit Limoges, Damien Marchal, Analytical chemistry . 2006,第9期

机译：与溶液共底物固定在电极上的氧化还原酶。模拟时间分辨催化反应的一般程序
2. The impact of enzyme orientation and electrode topology on the catalytic activity of adsorbed redox enzymes [J] . Duncan G. G. McMillan, Sophie J. Marritt, Gemma L. Kemp, Electrochimica Acta . 2013,第Null期

机译：酶的取向和电极拓扑对吸附的氧化还原酶催化活性的影响
3. Analyzing the catalytic processes of immobilized redox enzymes by vibrational spectroscopies [J] . Sezer Murat, Millo Diego, Weidinger Inez M., IUBMB life . 2012,第6期

机译：振动光谱法分析固定化氧化还原酶的催化过程
4. Electron transfer between redox enzymes and electrodes through the artificial redox proteins and its applciatin for biosensors [C] . Hiroaki Shinohara, Taichi Kusaka, Eisaku Yokota, International meeting on chemical sensors . 1998

机译：氧化还原酶和电极之间通过人工氧化还原蛋白进行电子转移及其在生物传感器中的应用
5. Increasing the Stability and Efficiency of Bio-Solar Cell Electrodes Using Reactive Oxygen Species Scavengers and Redox Polymer Immobilization. [D] . Stephanz, Megan E. 2017

机译：使用活性氧清除剂和氧化还原聚合物固定化提高生物太阳能电池电极的稳定性和效率。
6. The Impact of Enzyme Orientation and Electrode Topology on the Catalytic Activity of Adsorbed Redox Enzymes [O] . Duncan G. G. McMillan, Sophie J. Marritt, Gemma L. Kemp, -1

机译：酶的取向和电极拓扑对吸附的氧化还原酶催化活性的影响
7. The impact of enzyme orientation and electrode topology on the catalytic activity of adsorbed redox enzymes [O] . Mcmillan, Duncan G.G., Marritt, Sophie J., Kemp, Gemma L., 2013

机译：酶的取向和电极拓扑对吸附的氧化还原酶催化活性的影响
8. Intracellular Analysis with an Immobilized-Enzyme Glucose Electrode Havine 2-Micrometers Diameter and Subsecond Response Times. [R] . Abe, T., Lau, Y. Y., Ewing, A. G. 1991

机译：固定化酶葡萄糖电极Havine 2微米直径和亚秒响应时间的细胞内分析。

Redox Enzymes Immobilized on Electrodes with Solution Cosubstrates. General Procedure for Simulation of Time-Resolved Catalytic Responses

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