大肠杆菌蛋白CheZ功能获得和功能丧失突变体的体内和体外特性分析
In vivo and in vitro characterization of Escherichia coli protein CheZ gain- and loss-of-function mutants.
作者信息
Sanna M G, Simon M I
机构信息
Division of Biology, California Institute of Technology, Pasadena 91125, USA.
出版信息
J Bacteriol. 1996 Nov;178(21):6275-80. doi: 10.1128/jb.178.21.6275-6280.1996.
Abstract
Bacterial chemotaxis results from the ability of flagellated bacteria to control the frequency of switching between smooth-swimming and tumbling episodes in response to changes in concentration of extracellular substances. High levels of phosphorylated CheY protein are the intracellular signal for inducing the tumbling mode of swimming. The CheZ protein has been shown to control the level of phosphorylated CheY by regulating its rate of dephosphorylation. To identify functional domains in the CheZ protein, we made mutants by random mutagenesis of the cheZ gene and constructed a series of deletions. The map position and the in vivo and in vitro activity of the resulting gain- or loss-of-function mutant proteins define separate functional domains of the CheZ protein.
摘要
细菌趋化性源于有鞭毛的细菌能够根据细胞外物质浓度的变化来控制平滑游动和翻滚运动之间转换的频率。高水平的磷酸化CheY蛋白是诱导翻滚游动模式的细胞内信号。已表明CheZ蛋白通过调节其去磷酸化速率来控制磷酸化CheY的水平。为了鉴定CheZ蛋白中的功能结构域,我们通过对cheZ基因进行随机诱变制作了突变体,并构建了一系列缺失突变。所得功能获得或功能丧失突变蛋白的图谱位置以及体内和体外活性定义了CheZ蛋白的不同功能结构域。
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