Characterization of Alanine Dehydrogenase and Its Effect on Streptomyces coelicolorA3(2) Development in Liquid Culture.

IF 1.2 Q2 Biochemistry, Genetics and Molecular Biology

Journal of Molecular Microbiology and Biotechnology Pub Date : 2019-01-01 Epub Date: 2019-12-18 DOI:10.1159/000504709

Arie Van Wieren, Ryan Cook, Sudipta Majumdar

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引用次数: 3

Abstract

Streptomyces, the most important group of industrial microorganisms, is harvested in liquid cultures for the production of two-thirds of all clinically relevant secondary metabolites. It is demonstrated here that the growth of Streptomyces coelicolor A3(2) is impacted by the deletion of the alanine dehydrogenase (ALD), an essential enzyme that plays a central role in the carbon and nitrogen metabolism. A long lag-phase growth followed by a slow exponential growth of S. coelicolor due to ALD gene deletion was observed in liquid yeast extract mineral salt culture. The slow lag-phase growth was replaced by the normal wild-type like growth by ALD complementation engineering. The ALD enzyme from S. coelicolor was also heterologously cloned and expressed in Escherichia coli for characterization. The optimum enzyme activity for the oxidative deamination reaction was found at 30°C, pH 9.5 with a catalytic efficiency, kcat/KM, of 2.0 ± 0.1 mM-1 s-1. The optimum enzyme activity for the reductive amination reaction was found at 30°C, pH 9.0 with a catalytic efficiency, kcat/KM, of 1.9 ± 0.1 mM-1 s-1.

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丙氨酸脱氢酶的特性及其对冷色链霉菌a3(2)液体培养发育的影响

链霉菌是最重要的一组工业微生物，在液体培养中收获，用于生产三分之二的临床相关次级代谢物。研究表明，coelicolor链霉菌A3(2)的生长受到丙氨酸脱氢酶(ALD)缺失的影响，ALD是一种在碳氮代谢中起核心作用的必需酶。在液体酵母浸膏无机盐培养中，由于ALD基因缺失导致的长滞后期生长，随后呈缓慢的指数增长。通过ALD互补工程将缓慢的滞后期生长替换为正常的野生型样生长。并在大肠杆菌中进行了ALD酶的异种克隆和表达。在30°C、pH 9.5的条件下，氧化脱胺反应酶活性最佳，催化效率kcat/KM为2.0±0.1 mM-1 s-1。在30°C、pH 9.0条件下，酶活性最佳，催化效率kcat/KM为1.9±0.1 mM-1 s-1。

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来源期刊

Journal of Molecular Microbiology and Biotechnology 生物-生物工程与应用微生物

CiteScore

3.90

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： We are entering a new and exciting era of microbiological study and application. Recent advances in the now established disciplines of genomics, proteomics and bioinformatics, together with extensive cooperation between academic and industrial concerns have brought about an integration of basic and applied microbiology as never before.