纳米材料作为酶固定基质的研究。

Munishwar N Gupta, Mandeep Kaloti, Manali Kapoor, Kusum Solanki
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引用次数: 127

摘要

纳米材料是一种新型的酶固定化基质。虽然它们的高表面体积比是一个明显的优势,但它们的布朗运动会影响固定在这些基质上的酶的行为。碳纳米管、超顺磁性纳米颗粒和介孔材料构成了一些重要的基质类别。这种固定化酶系统已在水和低水介质中用于生物催化和外消旋物的分离。本文综述了酶在纳米材料上固定化的行为,并讨论了用这种生物催化剂制剂报道的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanomaterials as matrices for enzyme immobilization.

Nanomaterials constitute novel and interesting matrices for enzyme immobilization. While their high surface to volume ratio is an obvious advantage, their Brownian motion can impact the behavior of enzymes immobilized on these matrices. Carbon nanotubes, superparamagnetic nanoparticles, and mesoporous materials constitute some important classes of matrices. Such immobilized enzyme systems have been used in both aqueous and low water media for biocatalysis and resolution of racemates. This overview examines the behavior of enzymes immobilized on nanomaterials and discusses the results reported with such biocatalyst preparations.

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