假马氏伯克氏菌Sigma N2在氨基酸利用和过氧化氢酶E表达调控中的作用

Duong Thi Hong Diep, N. Phuong, M. Hlaing, P. Srimanote, S. Tungpradabkul
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引用次数: 5

摘要

假马利氏伯克氏菌是类鼻疽病的病原体。目前已发现该病原菌的全基因组序列,从而解释了部分致病机制。在各种不利条件下,例如在氮和氨基酸饥饿期间,细菌可以利用替代的sigma因子如RpoS和RpoN来调节基因表达以适应和生存。在这项研究中,我们证明了位于假芽孢杆菌2号染色体上编码sigma因子RpoN同源物的rpoN2的突变不会改变细菌对氮和氨基酸的利用。然而,将假芽孢杆菌rpoN2引入缺乏rpoN2的大肠杆菌菌株中,恢复了其利用氨基酸的能力。此外,我们还对假芽孢杆菌野生型及其rpoN2等基因突变体进行了比较部分蛋白质组学分析,以阐明其氨基酸利用特性与在互补实验中发现的功能相当。相比之下,rpoN2突变体在转录和翻译水平上表现出katE表达的降低。我们的发现表明假芽孢杆菌RpoN2参与了过氧化氢酶E表达调控的特定功能。
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Role of Burkholderia pseudomallei Sigma N2 in Amino Acids Utilization and in Regulation of Catalase E Expression at the Transcriptional Level
Burkholderia pseudomallei is the causative agent of melioidosis. The complete genome sequences of this pathogen have been revealed, which explain some pathogenic mechanisms. In various hostile conditions, for example, during nitrogen and amino acid starvation, bacteria can utilize alternative sigma factors such as RpoS and RpoN to modulate genes expression for their adaptation and survival. In this study, we demonstrate that mutagenesis of rpoN2, which lies on chromosome 2 of B. pseudomallei and encodes a homologue of the sigma factor RpoN, did not alter nitrogen and amino acid utilization of the bacterium. However, introduction of B. pseudomallei rpoN2 into E. coli strain deficient for rpoN restored the ability to utilize amino acids. Moreover, comparative partial proteomic analysis of the B. pseudomallei wild type and its rpoN2 isogenic mutant was performed to elucidate its amino acids utilization property which was comparable to its function found in the complementation assay. By contrast, the rpoN2 mutant exhibited decreased katE expression at the transcriptional and translational levels. Our finding indicates that B. pseudomallei RpoN2 is involved in a specific function in the regulation of catalase E expression.
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