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来自嗜冷细菌GCJ02的谷氨酰胺生物合成蛋白的功能分析

Functional Analysis of a Glutamine Biosynthesis Protein from a Psychrotrophic Bacterium, GCJ02.

作者信息

Gong Chunjie, You Xihuo, Zhang Shuyang, Xue Dongsheng

机构信息

1Key Laboratory of Fermentation Engineering (Ministry of Education), National "111" Center for Cellular Regulation and Molecular Pharmaceutics, Hubei Provincial Cooperative Innovation Center of Industrial Fermentation, Hubei Key Laboratory of Industrial Microbiology, Hubei University of Technology, Wuhan, 430068 People's Republic of China.

2Mudanjiang Normal University, Mudanjiang, 157011 People's Republic of China.

出版信息

Indian J Microbiol. 2020 Jun;60(2):153-159. doi: 10.1007/s12088-020-00858-7. Epub 2020 Feb 6.

DOI:10.1007/s12088-020-00858-7
PMID:32255847
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7105534/
Abstract

A putative glutamine synthetase (GS) was detected in a psychrophilic bacterium, GCJ02. For gaining greater insight into its functioning, the gene was cloned and expressed in a heterologous host, . The monomer enzyme with a molecular weight of 53.03 kDa was expressed primarily in cytosolic compartment. The enzyme activity was detected using glutamate and ATP. The optimum conditions of its biosynthesis were observed to be 60 °C and pH value 7.5. Its thermostability was relatively high with a half-life of 50 min at 40 °C. GS activity was enhanced in the presence of metal ions such as Mg and Mn, whereas Fe, Cu and Ca proved inhibitory. The consensus pattern [EXE]-D-KP-[XGXGXH] in the GS lies between residues 132 and 272. The catalytic active sites consisting of EAE and NGSGMH were verified by site-directed mutagenesis. Based on the analysis of the consensus pattern, the GS/glutamate synthase cycle of GCJ02 is expected to contribute to the GS synthesic activity.

摘要

在嗜冷细菌GCJ02中检测到一种假定的谷氨酰胺合成酶(GS)。为了更深入地了解其功能,该基因被克隆并在异源宿主中表达。分子量为53.03 kDa的单体酶主要在细胞质区室中表达。使用谷氨酸和ATP检测酶活性。观察到其生物合成的最佳条件为60°C和pH值7.5。其热稳定性相对较高,在40°C下半衰期为50分钟。在Mg和Mn等金属离子存在下,GS活性增强,而Fe、Cu和Ca则具有抑制作用。GS中的共有模式[EXE]-D-KP-[XGXGXH]位于第132位和第272位残基之间。通过定点诱变验证了由EAE和NGSGMH组成的催化活性位点。基于对共有模式的分析,预计GCJ02的GS/谷氨酸合酶循环有助于GS合成活性。

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