壳聚糖酶的合理重新设计以提高热稳定性和催化活性，从而生产具有相对高聚合度的壳寡糖。

Rational Redesign of Chitosanase to Enhance Thermostability and Catalytic Activity to Produce Chitooligosaccharides with a Relatively High Degree of Polymerization.

作者信息

Wu Changyun, Yu Xiaowei, Zheng Pu, Chen Pengcheng, Wu Dan

机构信息

Key Laboratory of Industrial Biotechnology, Ministry of Education, School of Biotechnology, Jiangnan University, 1800 Lihu Road, Wuxi 214122, China.

出版信息

J Agric Food Chem. 2023 Oct 18;71(41):15213-15223. doi: 10.1021/acs.jafc.3c04542. Epub 2023 Oct 4.

DOI:10.1021/acs.jafc.3c04542

PMID:37793074

Abstract

Chitooligosaccharides (hdpCOS) with a high degree of polymerization (hdp, DP 4-10) generally have greater biological activities than those of low-DP (ldp, DP 2-3) COS. Chitosanase from KCP2 (Csn46) can degrade chitosan to more hdpCOS at high temperature (70 °C), but low thermal stability at this temperature makes it unsuitable for industrial application; the wild-type enzyme can only produce COS (DP 2-4) at lower temperatures. Several thermostable mutants were obtained by modifying chitosanase using a comprehensive strategy based on a computer-aided mutant design. A combination of four beneficial single-point mutations (A129L/T175 V/K70T/D34G) to Csn46 was selected to obtain a markedly improved mutant, Mut4, with a half-life at 60 °C extended from 34.31 to 690.80 min, and the specific activity increased from 1671.73 to 3528.77 U/mg. Mut4 produced COS with DPs of 2-4 and 2-7 at 60 and 70 °C, respectively. Therefore, Mut4 has the potential to be applied to the industrial-scale preparation of hdpCOS with high biological activity.

摘要

具有高聚合度（hdp，DP 4 - 10）的壳寡糖（hdpCOS）通常比低聚合度（ldp，DP 2 - 3）的壳寡糖具有更强的生物活性。来自KCP2（Csn46）的壳聚糖酶在高温（70°C）下可将壳聚糖降解为更多的hdpCOS，但在此温度下热稳定性较低，使其不适用于工业应用；野生型酶在较低温度下只能产生壳寡糖（DP 2 - 4）。通过基于计算机辅助突变设计的综合策略对壳聚糖酶进行改造，获得了几种热稳定突变体。选择将四个有益的单点突变（A129L/T175V/K70T/D34G）组合到Csn46上，以获得一个显著改善的突变体Mut4，其在60°C下的半衰期从34.31分钟延长至690.80分钟，比活性从1671.73 U/mg提高到3528.77 U/mg。Mut4在60°C和70°C下分别产生DP为2 - 4和2 - 7的壳寡糖。因此，Mut4有潜力应用于具有高生物活性的hdpCOS的工业规模制备。

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壳聚糖酶的合理重新设计以提高热稳定性和催化活性，从而生产具有相对高聚合度的壳寡糖。

Rational Redesign of Chitosanase to Enhance Thermostability and Catalytic Activity to Produce Chitooligosaccharides with a Relatively High Degree of Polymerization.

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