Institute of Oceanic Research and Development, Tokai University, 3-20-1 Orido, Shizuoka 424-8610, Japan.
Mol Microbiol. 2010 Mar;75(5):1244-59. doi: 10.1111/j.1365-2958.2010.07047.x. Epub 2010 Jan 12.
The response regulator DegU and its cognate kinase DegS constitute a two-component system in Bacillus subtilis that regulates many cellular processes, including exoprotease production and competence development. Using DNA footprint assay, gel shift assay and mutational analyses of P3degU-lacZ fusions, we showed that phosphorylated DegU (DegU-P) binds to two direct repeats (DR1 and DR2) of the consensus DegU-binding sequence in the P3degU promoter. The alteration of chromosomal DR2 severely decreased degU expression, demonstrating its importance in positive autoregulation of degU. Observation of DegU protein levels suggested that DegU is degraded. Western blot analysis of DegU in disruption mutants of genes encoding various ATP-dependent proteases strongly suggested that ClpCP degrades DegU. Moreover, when de novo protein synthesis was blocked, DegU was rapidly degraded in the wild-type but not in the clpC and clpP strains, and DegU with a mutated phosphorylation site was much stable. These results suggested preferential degradation of DegU-P by ClpCP, but not of unphosphorylated DegU. We confirmed that DegU-P was degraded preferentially using an in vitro ClpCP degradation system. Furthermore, a mutational analysis showed that the N-terminal region of DegU is important for proteolysis.
枯草芽孢杆菌中的应答调节蛋白 DegU 和其同源激酶 DegS 构成了一个双组分系统,该系统调节许多细胞过程,包括外肽酶的产生和感受态的发育。通过 DNA 足迹实验、凝胶迁移实验和 P3degU-lacZ 融合突变分析,我们表明磷酸化的 DegU(DegU-P)与 P3degU 启动子中 DegU 结合序列的两个直接重复(DR1 和 DR2)结合。染色体 DR2 的改变严重降低了 degU 的表达,表明其在 degU 的正调控中非常重要。观察 DegU 蛋白水平表明 DegU 被降解。对编码各种 ATP 依赖性蛋白酶的基因缺失突变体中的 DegU 进行 Western blot 分析强烈表明 ClpCP 降解 DegU。此外,当从头合成蛋白质被阻断时,野生型中的 DegU 迅速降解,但 clpC 和 clpP 菌株中没有,并且具有突变磷酸化位点的 DegU 更加稳定。这些结果表明 ClpCP 优先降解 DegU-P,而不是未磷酸化的 DegU。我们使用体外 ClpCP 降解系统证实了 DegU-P 优先降解。此外,突变分析表明 DegU 的 N 端区域对蛋白水解很重要。