细胞和酶固定于慢病毒载体（LentiKats®）上。

Immobilization of cells and enzymes to LentiKats®.

作者信息

Krasňan Vladimír, Stloukal Radek, Rosenberg Michal, Rebroš Martin

机构信息

Slovak University of Technology, Radlinského 9, 812 37, Bratislava, Slovakia.

LentiKat's a.s., Pod Vinicí 83, 471 27, Stráž pod Ralskem, Czech Republic.

出版信息

Appl Microbiol Biotechnol. 2016 Mar;100(6):2535-53. doi: 10.1007/s00253-016-7283-4. Epub 2016 Jan 21.

DOI:10.1007/s00253-016-7283-4

PMID:26795964

Abstract

Biocatalyst immobilization is one of the techniques, which can improve whole cells or enzyme applications. This method, based on the fixation of the biocatalyst into or onto various materials, may increase robustness of the biocatalyst, allows its reuse, or improves the product yield. In recent decades, a number of immobilization techniques have been developed. They can be divided according to the used natural or synthetic material and principle of biocatalyst fixation in the particle. One option, based on the entrapment of cells or enzymes into a synthetic polyvinyl alcohol lens with original shape, is LentiKats® immobilization. This review describes the preparation principle of these particles and summarizes existing successful LentiKats® immobilizations. In addition, examples are compared with other immobilization techniques or free biocatalysts, pointing to the advantages and disadvantages of LentiKats®.

摘要

生物催化剂固定化是一种能够改善全细胞或酶应用的技术。该方法基于将生物催化剂固定在各种材料内部或表面，可增强生物催化剂的稳定性，使其能够重复使用，或提高产物产量。近几十年来，已开发出多种固定化技术。它们可根据所使用的天然或合成材料以及生物催化剂在颗粒中的固定原理进行分类。基于将细胞或酶包埋在具有原始形状的合成聚乙烯醇透镜中的一种方法是LentiKats®固定化。本综述描述了这些颗粒的制备原理，并总结了现有的成功的LentiKats®固定化方法。此外，还将实例与其他固定化技术或游离生物催化剂进行了比较，指出了LentiKats®的优缺点。

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细胞和酶固定于慢病毒载体（LentiKats®）上。

Immobilization of cells and enzymes to LentiKats®.

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