纳米多孔金上的酶固定化:综述。

Biochemistry Insights Pub Date : 2017-12-17 eCollection Date: 2017-01-01 DOI:10.1177/1178626417748607
Keith J Stine
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引用次数: 0

摘要

纳米多孔金(简称 np-Au 或 NPG)在过去 10 年中已成为一种新的酶固定化支持材料。这种材料具有易于制备、孔径可调、表面体积比高以及与多种酶固定策略兼容等吸引人的特点。由于 np-Au 材料能够构建高表面积和高稳定性的电极,因此特别适用于生物传感器和生物燃料电池应用中氧化还原酶的固定。调整 np-Au 的孔径可以提高酶的热稳定性。在 np-Au 上固定葡萄糖氧化酶一直是开发葡萄糖传感器的重点。固定漆酶和相关酶证明了 np-Au 在构建生物燃料电池方面的用途。np-Au 还被用于固定其他氧化还原酶、用于生物测定的酶结合物以及工业流程中的相关酶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Enzyme Immobilization on Nanoporous Gold: A Review.

Enzyme Immobilization on Nanoporous Gold: A Review.

Enzyme Immobilization on Nanoporous Gold: A Review.

Enzyme Immobilization on Nanoporous Gold: A Review.

Nanoporous gold (referred to as np-Au or NPG) has emerged over the past 10 years as a new support for enzyme immobilization. The material has appealing features of ease of preparation, tunability of pore size, high surface to volume ratio, and compatibility with multiple strategies for enzyme immobilization. The np-Au material is especially of interest for immobilization of redox enzymes for biosensor and biofuel cell applications given the ability to construct electrodes of high surface area and stability. Adjustment of the pore size of np-Au can yield enhancements in enzyme thermal stability. Glucose oxidase immobilization on np-Au has been a focus for development of glucose sensors. Immobilization of laccase and related enzymes has demonstrated the utility of np-Au for construction of biofuel cells. Np-Au has been used to immobilize other redox enzymes, enzyme conjugates for use in bioassays, and enzymes of interest for industrial processes.

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Biochemistry Insights
Biochemistry Insights BIOCHEMISTRY & MOLECULAR BIOLOGY-
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