丙酮酸脱羧酶缺陷型运动发酵单胞菌中的乙醇生成和呼吸作用。

Ethanologenesis and respiration in a pyruvate decarboxylase-deficient Zymomonas mobilis.

机构信息

Institute of Microbiology and Biotechnology, University of Latvia, Riga, Latvia.

Department of Biotechnology and Food Science, NTNU Norwegian University of Science and Technology, Trondheim, Norway.

出版信息

BMC Res Notes. 2021 May 28;14(1):208. doi: 10.1186/s13104-021-05625-5.

DOI:10.1186/s13104-021-05625-5

PMID:34049566

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8161578/

Abstract

OBJECTIVE

Zymomonas mobilis is an alpha-proteobacterium with a rapid ethanologenic pathway, involving Entner-Doudoroff (E-D) glycolysis, pyruvate decarboxylase (Pdc) and two alcohol dehydrogenase (ADH) isoenzymes. Pyruvate is the end-product of the E-D pathway and the substrate for Pdc. Construction and study of Pdc-deficient strains is of key importance for Z. mobilis metabolic engineering, because the pyruvate node represents the central branching point, most novel pathways divert from ethanol synthesis. In the present work, we examined the aerobic metabolism of a strain with partly inactivated Pdc.

RESULTS

Relative to its parent strain the mutant produced more pyruvate. Yet, it also yielded more acetaldehyde, the product of the Pdc reaction and the substrate for ADH, although the bulk ADH activity was similar in both strains, while the Pdc activity in the mutant was reduced by half. Simulations with the kinetic model of Z. mobilis E-D pathway indicated that, for the observed acetaldehyde to ethanol production ratio in the mutant, the ratio between its respiratory NADH oxidase and ADH activities should be significantly higher, than the measured values. Implications of this finding for the directionality of the ADH isoenzyme operation in vivo and interactions between ADH and Pdc are discussed.

摘要

目的

运动发酵单胞菌是一种α-变形菌，具有快速的乙醇发酵途径，涉及到 Entner-Doudoroff（E-D）糖酵解、丙酮酸脱羧酶（Pdc）和两种醇脱氢酶（ADH）同工酶。丙酮酸是 E-D 途径的终产物，也是 Pdc 的底物。构建和研究 Pdc 缺陷菌株对于运动发酵单胞菌的代谢工程至关重要，因为丙酮酸节点代表了中央分支点，大多数新途径都偏离了乙醇合成。在本工作中，我们研究了部分失活 Pdc 的菌株的需氧代谢。

结果

与亲本菌株相比，突变株产生了更多的丙酮酸。然而，它也产生了更多的乙醛，这是 Pdc 反应的产物和 ADH 的底物，尽管两种菌株的 ADH 活性相似，而突变株中的 Pdc 活性降低了一半。利用运动发酵单胞菌 E-D 途径的动力学模型进行模拟表明，对于突变株中观察到的乙醛到乙醇的生产比例，其呼吸 NADH 氧化酶和 ADH 活性之间的比值应该显著高于测量值。讨论了这一发现对体内 ADH 同工酶操作方向以及 ADH 和 Pdc 之间相互作用的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/480e/8161578/7666dc1f33b3/13104_2021_5625_Fig1_HTML.jpg

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丙酮酸脱羧酶缺陷型运动发酵单胞菌中的乙醇生成和呼吸作用。

Ethanologenesis and respiration in a pyruvate decarboxylase-deficient Zymomonas mobilis.

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