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1
A functional description of CymA, an electron-transfer hub supporting anaerobic respiratory flexibility in Shewanella.CymA 的功能描述,CymA 是支持希瓦氏菌厌氧呼吸灵活性的电子转移中心。
Biochem J. 2012 Jun 15;444(3):465-74. doi: 10.1042/BJ20120197.
2
Menaquinone-7 is specific cofactor in tetraheme quinol dehydrogenase CymA.甲萘醌-7 是四血红素醌脱氢酶 CymA 的特异性辅因子。
J Biol Chem. 2012 Apr 20;287(17):14215-25. doi: 10.1074/jbc.M112.348813. Epub 2012 Mar 5.
3
Orientational control over nitrite reductase on modified gold electrode and its effects on the interfacial electron transfer.在修饰金电极上对亚硝酸盐还原酶的定向控制及其对界面电子转移的影响。
J Phys Chem B. 2011 Nov 3;115(43):12607-14. doi: 10.1021/jp205852u. Epub 2011 Oct 10.
4
Bioelectrochemical interface engineering: toward the fabrication of electrochemical biosensors, biofuel cells, and self-powered logic biosensors.生物电化学界面工程:电化学生物传感器、生物燃料电池和自供电逻辑生物传感器的制造。
Acc Chem Res. 2011 Nov 15;44(11):1232-43. doi: 10.1021/ar200096g. Epub 2011 Aug 3.
5
Strategies for "wiring" redox-active proteins to electrodes and applications in biosensors, biofuel cells, and nanotechnology.将氧化还原活性蛋白“布线”到电极的策略及其在生物传感器、生物燃料电池和纳米技术中的应用。
Chem Soc Rev. 2011 Jul;40(7):3564-76. doi: 10.1039/c1cs15030h. Epub 2011 Apr 20.
6
Molecular basis of coupled protein and electron transfer dynamics of cytochrome c in biomimetic complexes.细胞色素 c 在仿生复合物中耦合蛋白和电子转移动力学的分子基础。
J Am Chem Soc. 2010 Apr 28;132(16):5769-78. doi: 10.1021/ja910707r.
7
Opportunities for mesoporous nanocrystalline SnO2 electrodes in kinetic and catalytic analyses of redox proteins.
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Single-molecule electron transfer in electrochemical environments.电化学环境中的单分子电子转移
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Enzymes as working or inspirational electrocatalysts for fuel cells and electrolysis.酶作为燃料电池和电解的工作型或启发型电催化剂。
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10
Direct electrochemistry of redox enzymes as a tool for mechanistic studies.氧化还原酶的直接电化学作为一种机理研究工具
Chem Rev. 2008 Jul;108(7):2379-438. doi: 10.1021/cr0680742.

酶的取向和电极拓扑结构对吸附氧化还原酶催化活性的影响

The Impact of Enzyme Orientation and Electrode Topology on the Catalytic Activity of Adsorbed Redox Enzymes.

作者信息

McMillan Duncan G G, Marritt Sophie J, Kemp Gemma L, Gordon-Brown Piers, Butt Julea N, Jeuken Lars J C

机构信息

School of Biomedical Sciences, University of Leeds, Leeds LS2 9JT, United Kingdom. ; School of Physics & Astronomy, University of Leeds, Leeds LS2 9JT, United Kingdom.

Centre for Molecular and Structural Biochemistry, University of East Anglia, Norwich Research Park, Norwich NR4 7TJ, United Kingdom. ; School of Chemistry, University of East Anglia, Norwich Research Park, Norwich NR4 7TJ, United Kingdom.

出版信息

Electrochim Acta. 2013 Nov 1;110:79-85. doi: 10.1016/j.electacta.2013.01.153.

DOI:10.1016/j.electacta.2013.01.153
PMID:24634538
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3951721/
Abstract

It is well established that the structural details of electrodes and their interaction with adsorbed enzyme influences the interfacial electron transfer rate. However, for nanostructured electrodes, it is likely that the structure also impacts on substrate flux near the adsorbed enzymes and thus catalytic activity. Furthermore, for enzymes converting macro-molecular substrates it is possible that the enzyme orientation determines the nature of interactions between the adsorbed enzyme and substrate and therefore catalytic rates. In essence the electrode may impede substrate access to the active site of the enzyme. We have tested these possibilities through studies of the catalytic performance of two enzymes adsorbed on topologically distinct electrode materials. NrfA, a nitrite reductase, was adsorbed on mesoporous, nanocrystalline SnO electrodes. CymA from MR-1 reduces menaquinone-7 within 200 nm sized liposomes and this reaction was studied with the enzyme adsorbed on SAM modified ultra-flat gold electrodes.

摘要

电极的结构细节及其与吸附酶的相互作用会影响界面电子转移速率,这一点已得到充分证实。然而,对于纳米结构电极,其结构很可能也会影响吸附酶附近的底物通量,进而影响催化活性。此外,对于转化大分子底物的酶而言,酶的取向可能决定吸附酶与底物之间相互作用的性质,从而决定催化速率。从本质上讲,电极可能会阻碍底物进入酶的活性位点。我们通过研究吸附在拓扑结构不同的电极材料上的两种酶的催化性能,来检验这些可能性。亚硝酸还原酶NrfA吸附在介孔纳米晶SnO电极上。来自MR-1的CymA在200纳米大小的脂质体内还原甲基萘醌-7,我们研究了吸附在自组装单分子层修饰的超平金电极上的这种酶的反应。