纳米结构酶多层膜中“分子布线”的结构与厚度依赖性

Structure and thickness dependence of "molecular wiring" in nanostructured enzyme multilayers.

作者信息

Flexer Victoria, Forzani Erica S, Calvo Ernesto J, Ludueña Silvio J, Pietrasanta Lia I

机构信息

INQUIMAE, Departamento de Química Inorgánica, Analítica y Química Física, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires, Argentina.

出版信息

Anal Chem. 2006 Jan 15;78(2):399-407. doi: 10.1021/ac050973n.

DOI:10.1021/ac050973n

PMID:16408920

Abstract

Supramolecular organized multilayers composed of glucose oxidase (GOx) and osmium-derivatized poly(allylamine) redox polymer have been self-assembled electrostatically from Os-polyelectrolyte solutions of variable pH (5.5-8.8) leading to a decrease of the linear charge density in the PAH-Os with increasing pH. The layer-by-layer enzyme multilayers were studied by ellipsometry, quartz crystal microbalance, AFM, cyclic voltammetry, and electrocatalytic oxidation of beta-D-glucose. At higher adsorption solution pH, an increase in the film thickness, enzyme loading, and redox charge was observed. While the electrocatalytic response increases with the increase of the adsorption solution pH (decrease of the polyelectrolyte linear charge), the FADH2 oxidation bimolecular rate constant has a maximum in the pH range 7.0-7.5 where a change in the film growth mechanism is observed.

摘要

由葡萄糖氧化酶（GOx）和锇衍生化的聚（烯丙胺）氧化还原聚合物组成的超分子有序多层膜已通过静电作用从可变pH值（5.5 - 8.8）的Os - 聚电解质溶液中自组装而成，导致随着pH值的增加，PAH - Os中的线性电荷密度降低。通过椭偏仪、石英晶体微天平、原子力显微镜、循环伏安法以及β - D - 葡萄糖的电催化氧化对逐层酶多层膜进行了研究。在较高的吸附溶液pH值下，观察到膜厚度、酶负载量和氧化还原电荷增加。虽然电催化响应随着吸附溶液pH值的增加（聚电解质线性电荷减少）而增加，但FADH2氧化双分子速率常数在pH值7.0 - 7.5范围内有最大值，在此范围内观察到膜生长机制的变化。

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纳米结构酶多层膜中“分子布线”的结构与厚度依赖性

Structure and thickness dependence of "molecular wiring" in nanostructured enzyme multilayers.

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