Szurmant Hendrik, Muff Travis J, Ordal George W
Department of Biochemistry, Colleges of Medicine and Liberal Arts and Sciences, University of Illinois, Urbana, Illinois 61801, USA.
J Biol Chem. 2004 May 21;279(21):21787-92. doi: 10.1074/jbc.M311497200. Epub 2004 Jan 27.
Rapid restoration of prestimulus levels of the chemotactic response regulator, CheY-P, is important for preparing bacteria and archaea to respond sensitively to new stimuli. In an extension of previous work (Szurmant, H., Bunn, M. W., Cannistraro, V. J., and Ordal, G. W. (2003) J. Biol. Chem. 278, 48611-48616), we describe a new family of CheY-P phosphatases, the CYX family, that is widespread among the bacteria and archaea. These proteins provide another pathway, in addition to the ones involving CheZ of the gamma- and beta-proteobacteria (e.g. Escherichia coli) or the alternative CheY that serves as a "phosphate sink" among the alpha-proteobacteria (e.g. Sinorhizobium meliloti), for dephosphorylating CheY-P. In particular, we identify CheC, known previously to be involved in adaptation to stimuli in Bacillus subtilis, as a CheY-P phosphatase. Using an in vitro assay used previously to demonstrate that the switch protein FliY is a CheY-P phosphatase, we have shown that increasing amounts of CheC accelerate the hydrolysis of CheY-P. In vivo, a double mutant lacking cheC and the region of fliY that encodes the CheY-P binding domain is almost completely smooth swimming, implying that these cells contain very high levels of CheY-P. CheC appears to be primarily involved in restoring normal CheY-P levels following the addition of attractant, whereas FliY seems to act on CheY-P constitutively. The activity of CheC is relatively low compared to that of FliY, but we have shown that the chemotaxis protein CheD enhances the activity of CheC 5-fold. We suggest a model for how FliY, CheC, and CheD work together to regulate CheY-P levels in the bacterium.
趋化反应调节因子CheY-P的刺激前水平的快速恢复,对于使细菌和古菌能够敏感地响应新刺激非常重要。在之前工作(Szurmant, H., Bunn, M. W., Cannistraro, V. J., and Ordal, G. W. (2003) J. Biol. Chem. 278, 48611 - 48616)的扩展研究中,我们描述了一个新的CheY-P磷酸酶家族,即CYX家族,它在细菌和古菌中广泛存在。除了涉及γ-和β-变形菌(如大肠杆菌)的CheZ或在α-变形菌(如苜蓿中华根瘤菌)中作为“磷酸盐汇集器”的替代CheY的途径外,这些蛋白质为CheY-P的去磷酸化提供了另一条途径。特别是,我们鉴定出之前已知参与枯草芽孢杆菌对刺激适应的CheC为一种CheY-P磷酸酶。使用之前用于证明开关蛋白FliY是一种CheY-P磷酸酶的体外测定方法,我们已经表明,增加CheC的量会加速CheY-P的水解。在体内,缺乏cheC和fliY中编码CheY-P结合结构域区域的双突变体几乎完全平滑游动,这意味着这些细胞含有非常高水平的CheY-P。CheC似乎主要参与在添加引诱剂后恢复正常的CheY-P水平,而FliY似乎持续作用于CheY-P。与FliY相比,CheC的活性相对较低,但我们已经表明趋化蛋白CheD可将CheC的活性提高5倍。我们提出了一个关于FliY、CheC和CheD如何共同作用来调节细菌中CheY-P水平的模型。
