通过镍-亚氨基二乙酸磁性壳聚糖微球对组氨酸标签重组微杆菌酯酶进行高特异性固定化，用于高效合成d-生物素的关键手性中间体。

High specific immobilization of His-tagged recombinant Microbacterium esterase by Ni-NTA magnetic chitosan microspheres for efficient synthesis of key chiral intermediate of d-biotin.

作者信息

He Song, Wu Xiaomei, Ma Baodi, Xu Yi

机构信息

School of Chemistry and Environmental Engineering, Shanghai Institute of Technology, 100 Haiquan Road, Shanghai, 201418, China.

出版信息

Bioprocess Biosyst Eng. 2021 Oct;44(10):2193-2204. doi: 10.1007/s00449-021-02595-7. Epub 2021 Jun 4.

DOI:10.1007/s00449-021-02595-7

PMID:34089090

Abstract

The novel Ni-NTA-functionalized magnetic chitosan microspheres (MCS-NTA-Ni) were prepared via amino functionalization of MCS with epichlorohydrin and ethylenediamine, followed by the introduction of the aldehyde groups and NTA in turn, and nickel (II) ions were chelated in the end. MCS-NTA-Ni contained numerous long-armed NTA-Ni surface groups, ensuring high enzyme loading and providing more space and flexibility to attach enzymes and maintain their activity. This microsphere can have highly selective adsorption of his-tagged recombinant protein. The his-tagged recombinant Microbacterium esterase of E. coli BL21 (DE3)/pET21a-EstSIT01 was first immobilized on MCS-NTA-Ni by affinity fixation, giving high immobilization yield (90.1%) and enzyme loading (120 mg/g). Compared with free esterase, the immobilized esterase was found to exhibit higher pH stability and thermal stability. In addition, the immobilized esterase had excellent reusability for the synthesis of key chiral intermediate of d-biotin and the substrate conversion could still keep 100% after 8 cycles continuously.

摘要

通过用环氧氯丙烷和乙二胺对磁性壳聚糖微球（MCS）进行氨基功能化，然后依次引入醛基和NTA，最后螯合镍（II）离子，制备了新型镍-次氮基三乙酸功能化磁性壳聚糖微球（MCS-NTA-Ni）。MCS-NTA-Ni含有大量长臂状的NTA-Ni表面基团，确保了高酶负载量，并为附着酶和维持其活性提供了更多空间和灵活性。这种微球对带有组氨酸标签的重组蛋白具有高度选择性吸附。首先通过亲和固定将大肠杆菌BL21（DE3）/pET21a-EstSIT01的带有组氨酸标签的重组微杆菌酯酶固定在MCS-NTA-Ni上，固定化产率高（90.1%），酶负载量高（120 mg/g）。与游离酯酶相比，固定化酯酶表现出更高的pH稳定性和热稳定性。此外，固定化酯酶在合成d-生物素关键手性中间体方面具有出色的可重复使用性，连续8个循环后底物转化率仍可保持100%。

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通过镍-亚氨基二乙酸磁性壳聚糖微球对组氨酸标签重组微杆菌酯酶进行高特异性固定化，用于高效合成d-生物素的关键手性中间体。

High specific immobilization of His-tagged recombinant Microbacterium esterase by Ni-NTA magnetic chitosan microspheres for efficient synthesis of key chiral intermediate of d-biotin.

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