Uehara H, Yamane K, Maruo B
J Bacteriol. 1979 Aug;139(2):583-90. doi: 10.1128/jb.139.2.583-590.1979.
Two mutants (NT02 and NT17), each producing a thermosensitive neutral protease, were isolated from Bacillus subtilis NP58, a transformant which acquired the property of hyperproduction of neutral protease from Bacillus natto IAM 1212. The neutral proteases produced by these two mutants were partially purified and enzymologically characterized. The two mutant neutral proteases displayed increased thermosensitivity as well as altered pH optima compared with those of the NP58 enzyme. In addition, the hydrolytic activity of the thermosensitive neutral proteases on synthetic peptide substrates was found to be extremely different. These results strongly suggest that the site of mutation in each of the temperature-sensitive strains is located within the structural gene for neutral protease (nprE). Previous studies indicated the existence of a specific regulator gene (nprR) in addition to the structural gene for neutral protease. Phage PBS1-mediated transduction and deoxyribonucleic acid-mediated transformation studies with the parental and mutant strains suggest that the chromosomal order of these genes is recA-pyrA-nprR-nprE-fruB-metC. Moreover, the results of these genetic analyses imply that the mutations to thermosensitivity are located proximate to each other within the nprE gene.
从枯草芽孢杆菌NP58(一种从纳豆芽孢杆菌IAM 1212获得中性蛋白酶高产特性的转化体)中分离出两个突变体(NT02和NT17),每个突变体都产生一种热敏性中性蛋白酶。对这两个突变体产生的中性蛋白酶进行了部分纯化并进行了酶学特性分析。与NP58酶相比,这两种突变体中性蛋白酶表现出更高的热敏性以及改变的最适pH值。此外,发现热敏性中性蛋白酶对合成肽底物的水解活性差异极大。这些结果有力地表明,每个温度敏感菌株中的突变位点位于中性蛋白酶(nprE)的结构基因内。先前的研究表明,除了中性蛋白酶的结构基因外,还存在一个特定的调节基因(nprR)。用亲本菌株和突变菌株进行的噬菌体PBS1介导的转导和脱氧核糖核酸介导的转化研究表明,这些基因的染色体顺序是recA-pyrA-nprR-nprE-fruB-metC。此外,这些遗传分析结果表明,对热敏性的突变在nprE基因内彼此相邻。