Biotin concentration affects anaplerotic reactions functioning in glutamic acid production in Corynebacterium glutamicum.

IF 2.6 4区 生物学 Q3 MICROBIOLOGY
Takako Ochiai, Masaaki Wachi, Takashi Hirasawa
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Abstract

The study investigates the effect of biotin concentration on the role of anaplerotic reactions catalysed by pyruvate carboxylase (PC) and phosphoenolpyruvate carboxylase (PEPC) in glutamic acid production by Corynebacterium glutamicum. C. glutamicum requires biotin for its growth, and its glutamic acid production can be induced by the addition of Tween 40 or penicillin or by biotin limitation. The biotin enzyme PC and the non-biotin enzyme PEPC catalyse two anaplerotic reactions to supply oxaloacetic acid to the TCA cycle in C. glutamicum. Therefore, they are crucial for glutamic acid production in this bacterium. In this study, we investigated the contribution of each anaplerotic reaction to Tween 40- and penicillin-induced glutamic acid production using disruptants of PEPC and PC. In the presence of 20 µg l-1 biotin, which is sufficient for growth, the PEPC-catalysed anaplerotic reaction mainly contributed to Tween 40- and penicillin-induced glutamic acid production. However, when increasing biotin concentration 10-fold (i.e. 200 µg l-1), both PC- and PEPC-catalysed reactions could function in glutamic acid production. Western blotting revealed that the amount of biotin-bound PC was reduced by the addition of Tween 40 and penicillin in the presence of 20 µg l-1. However, these induction treatments did not change the amount of biotin-bound PC in the presence of 200 µg l-1 biotin. These results indicate that both anaplerotic reactions are functional during glutamic acid production in C. glutamicum and that biotin concentration mainly affects which anaplerotic reactions function during glutamic acid production.

生物素浓度会影响谷氨酸棒状杆菌产生谷氨酸的无机反应。
本研究探讨了生物素浓度对丙酮酸羧化酶(PC)和磷酸烯醇丙酮酸羧化酶(PEPC)催化的无性反应在谷氨酸产生过程中的作用的影响。谷氨酸棒状杆菌的生长需要生物素,添加吐温 40 或青霉素或限制生物素可诱导其产生谷氨酸。生物素酶 PC 和非生物素酶 PEPC 催化两个无热效应反应,为谷氨酸球菌的 TCA 循环提供草酰乙酸。因此,它们对该细菌生产谷氨酸至关重要。在本研究中,我们使用 PEPC 和 PC 的干扰物研究了每种无性反应对吐温 40- 和青霉素诱导的谷氨酸生产的贡献。在 20 µg l-1 生物素(足以满足生长需要)存在下,PEPC 催化的合成反应对吐温 40 和青霉素诱导的谷氨酸生成起主要作用。然而,当生物素浓度增加 10 倍(即 200 µg l-1)时,PC 和 PEPC 催化的反应都能在谷氨酸生产中发挥作用。Western 印迹显示,在 20 µg l-1 的条件下,加入吐温 40 和青霉素会减少生物素结合 PC 的数量。然而,在 200 µg l-1 生物素存在的情况下,这些诱导处理并没有改变生物素结合 PC 的数量。这些结果表明,在谷氨酸酵母生产谷氨酸的过程中,两种合成反应都起作用,而生物素浓度主要影响谷氨酸生产过程中哪种合成反应起作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Microbiology-Sgm
Microbiology-Sgm 生物-微生物学
CiteScore
4.60
自引率
7.10%
发文量
132
审稿时长
3.0 months
期刊介绍: We publish high-quality original research on bacteria, fungi, protists, archaea, algae, parasites and other microscopic life forms. Topics include but are not limited to: Antimicrobials and antimicrobial resistance Bacteriology and parasitology Biochemistry and biophysics Biofilms and biological systems Biotechnology and bioremediation Cell biology and signalling Chemical biology Cross-disciplinary work Ecology and environmental microbiology Food microbiology Genetics Host–microbe interactions Microbial methods and techniques Microscopy and imaging Omics, including genomics, proteomics and metabolomics Physiology and metabolism Systems biology and synthetic biology The microbiome.
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