通过理性设计提高长野芽孢杆菌酸性普鲁兰酶的热稳定性

Improving the Thermostability of Acidic Pullulanase from Bacillus naganoensis by Rational Design.

作者信息

Chang Meihui, Chu Xiaoyu, Lv Jinzhi, Li Qingbin, Tian Jian, Wu Ningfeng

机构信息

Biotechnology Research Institute, Chinese Academy of Agricultural Sciences, Beijing, 100081, China.

Institute of Food Science and Engineering, Jiangxi Agricultural University, Nanchang, 330045, China.

出版信息

PLoS One. 2016 Oct 20;11(10):e0165006. doi: 10.1371/journal.pone.0165006. eCollection 2016.

DOI:10.1371/journal.pone.0165006

PMID:27764201

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5072709/

Abstract

Pullulanase (EC 3.2.1.41) plays an important role in the specific hydrolysis of branch points in amylopectin. Enhancing its thermostability is required for its industrial application. In this study, rational protein design was used to improve the thermostability of PulB from Bacillus naganoensis (AB231790.1), which has strong enzymatic properties. Three positive single-site mutants (PulB-D328H, PulB-N387D, and PulB-A414P) were selected from six mutants. After incubation at 65°C for 5 min, the residual activities of PulB-D328H, PulB-N387D, and PulB-A414P were 4.5-, 1.7-, and 1.47-fold higher than PulB-WT, and their Tm values (the temperature at which half protein molecule denature) were 1.8°C, 0.4°C, and 0.9°C higher than PulB-WT, respectively. Then the final combined mutant PulB-328/387/414 was constructed. The t1/2 of it was 12.9-fold longer than that of PulB-WT at 65°C and the total increase in Tm of it (5.0°C) was almost 60% greater than the sum of individual increases (3.1°C). In addition, kinetic studies revealed that the kcat and the kcat/Km of PulB-328/387/414 increased by 38.8% and 12.9%. The remarkable improvement in thermostability and the high catalytic efficiency of PulB-328/387/414 make it suitable for industrial applications.

摘要

支链淀粉酶（EC 3.2.1.41）在支链淀粉分支点的特异性水解中起着重要作用。提高其热稳定性是其工业应用所必需的。在本研究中，采用合理的蛋白质设计方法来提高来自长野芽孢杆菌（AB231790.1）的PulB的热稳定性，该酶具有很强的酶学性质。从六个突变体中筛选出三个正向单位点突变体（PulB-D328H、PulB-N387D和PulB-A414P）。在65℃孵育5分钟后，PulB-D328H、PulB-N387D和PulB-A414P的残余活性分别比野生型PulB高4.5倍、1.7倍和1.47倍，其熔点（半数蛋白质分子变性的温度）分别比野生型PulB高1.8℃、0.4℃和0.9℃。然后构建了最终的复合突变体PulB-328/387/414。在65℃下，其半衰期比野生型PulB长12.9倍，其熔点的总升高（5.0℃）比单个升高的总和（3.1℃）几乎高60%。此外，动力学研究表明，PulB-328/387/414的kcat和kcat/Km分别提高了38.8%和12.9%。PulB-328/387/414热稳定性的显著提高和高催化效率使其适用于工业应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2624/5072709/6dec7d0e3672/pone.0165006.g001.jpg

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通过理性设计提高长野芽孢杆菌酸性普鲁兰酶的热稳定性

Improving the Thermostability of Acidic Pullulanase from Bacillus naganoensis by Rational Design.

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