在甲苯降解反硝化菌菌株15-1中，苄基琥珀酸合酶受到转录后调控。

Benzylsuccinate Synthase is Post-Transcriptionally Regulated in the Toluene-Degrading Denitrifier sp. Strain 15-1.

作者信息

Meyer-Cifuentes Ingrid, Gruhl Sylvie, Haange Sven-Bastiaan, Lünsmann Vanessa, Jehmlich Nico, Bergen Martin von, Heipieper Hermann J, Müller Jochen A

机构信息

Department of Environmental Biotechnology, Helmholtz Centre for Environmental Research - UFZ, Permoserstr. 15, 04318 Leipzig, Germany.

Junior Research Group of Microbial Biotechnology, Leibniz Institute DSMZ, German Collection of Microorganisms and Cell Cultures, Inhoffenstr. 7B, 38124 Braunschweig, Germany.

出版信息

Microorganisms. 2020 May 7;8(5):681. doi: 10.3390/microorganisms8050681.

DOI:10.3390/microorganisms8050681

PMID:32392861

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7285207/

Abstract

The facultative denitrifying alphaproteobacterium sp strain 15-1 had been isolated from the hypoxic rhizosphere of a constructed wetland model fed with toluene. This bacterium can catabolize toluene anaerobically but not aerobically. Here, we used strain 15-1 to investigate regulation of expression of the highly oxygen-sensitive glycyl radical enzyme benzylsuccinate synthase, which catalyzes the first step in anaerobic toluene degradation. In cells growing aerobically with benzoate, the addition of toluene resulted in a ~20-fold increased transcription of , encoding for the catalytically active subunit of the enzyme. Under anoxic conditions, mRNA copy numbers were up to 129-fold higher in cells growing with toluene as compared to cells growing with benzoate. Proteomics showed that abundance of benzylsuccinate synthase increased in cells growing anaerobically with toluene. In contrast, peptides of this enzyme were never detected in oxic conditions. These findings show that synthesis of benzylsuccinate synthase was under stringent post-transcriptional control in the presence of oxygen, which is a novel level of regulation for glycyl radical enzymes.

摘要

兼性反硝化α-变形杆菌sp菌株15-1是从一个以甲苯为食的人工湿地模型的缺氧根际中分离出来的。这种细菌能够在厌氧条件下分解代谢甲苯，但在需氧条件下则不能。在此，我们利用菌株15-1来研究对氧高度敏感的甘氨酰自由基酶苄基琥珀酸合酶的表达调控，该酶催化厌氧甲苯降解的第一步。在以苯甲酸盐为底物进行需氧生长的细胞中，添加甲苯会导致编码该酶催化活性亚基的基因转录增加约20倍。在缺氧条件下，与以苯甲酸盐为底物生长的细胞相比，以甲苯为底物生长的细胞中该基因的mRNA拷贝数高出多达129倍。蛋白质组学研究表明，在以甲苯为底物进行厌氧生长的细胞中，苄基琥珀酸合酶的丰度增加。相反，在有氧条件下从未检测到该酶的肽段。这些发现表明，在有氧存在的情况下，苄基琥珀酸合酶的合成受到严格的转录后调控，这是甘氨酰自由基酶一种新的调控水平。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f819/7285207/6acffafa612d/microorganisms-08-00681-g001.jpg

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在甲苯降解反硝化菌菌株15-1中，苄基琥珀酸合酶受到转录后调控。

Benzylsuccinate Synthase is Post-Transcriptionally Regulated in the Toluene-Degrading Denitrifier sp. Strain 15-1.

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