trmE对嗜冷菌丁香假单胞菌在低温下生长的重要性。
Importance of trmE for growth of the psychrophile Pseudomonas syringae at low temperatures.
作者信息
Singh Ashish K, Pindi Pavan Kumar, Dube Smita, Sundareswaran V R, Shivaji S
机构信息
Centre for Cellular and Molecular Biology, Hyderabad, India.
出版信息
Appl Environ Microbiol. 2009 Jul;75(13):4419-26. doi: 10.1128/AEM.01523-08. Epub 2009 May 8.
Abstract
Transposon mutagenesis of Pseudomonas syringae Lz4W, a psychrophilic bacterium capable of growing at temperatures between 2 and 30 degrees C, yielded 30 cold-sensitive mutants, and CSM1, one of these cold-sensitive mutants, was characterized. Growth of CSM1 was retarded when it was cultured at 4 degrees C but not when it was cultured at 22 degrees C and 28 degrees C compared to the growth of wild-type cells, indicating that CSM1 is a cold-sensitive mutant of P. syringae Lz4W. The mutated gene in CSM1 was identified as trmE (coding for tRNA modification GTPase), and evidence is provided that this gene is induced at low temperatures. Further, the cold-inducible nature of the trmE promoter was demonstrated. In addition, the transcription start site and the various regulatory elements of the trmE promoter, such as the -10 region, -35 region, UP element, cold box, and DEAD box, were identified, and the importance of these regulatory elements in promoter activity were confirmed. The importance of trmE in rapid adaptation to growth at low temperatures was further highlighted by plasmid-mediated complementation that alleviated the cold-sensitive phenotype of CSM1.
摘要
丁香假单胞菌Lz4W是一种能够在2至30摄氏度之间生长的嗜冷细菌,对其进行转座子诱变产生了30个冷敏感突变体,并对其中一个冷敏感突变体CSM1进行了特性分析。与野生型细胞的生长相比,CSM1在4摄氏度下培养时生长受到抑制,但在22摄氏度和28摄氏度下培养时不受影响,这表明CSM1是丁香假单胞菌Lz4W的冷敏感突变体。CSM1中的突变基因被鉴定为trmE(编码tRNA修饰GTP酶),并且有证据表明该基因在低温下被诱导。此外,还证明了trmE启动子的冷诱导特性。此外,还确定了trmE启动子的转录起始位点和各种调控元件,如-10区、-35区、上游元件、冷盒和DEAD盒,并证实了这些调控元件在启动子活性中的重要性。质粒介导的互补作用减轻了CSM1的冷敏感表型,进一步突出了trmE在快速适应低温生长中的重要性。
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