球形红杆菌全局基因调控因子PrrA(RegA)的激活。
Activation of the global gene regulator PrrA (RegA) from Rhodobacter sphaeroides.
作者信息
Laguri Cédric, Stenzel Rachelle A, Donohue Timothy J, Phillips-Jones Mary K, Williamson Michael P
机构信息
Department of Molecular Biology and Biotechnology, University of Sheffield, Firth Court, Western Bank, UK.
出版信息
Biochemistry. 2006 Jun 27;45(25):7872-81. doi: 10.1021/bi060683g.
Abstract
PrrA is a global transcription regulator activated upon phosphorylation by its cognate kinase PrrB in response to low oxygen levels in Rhodobacter sphaeroides. Here we show by gel filtration, analytical ultracentrifugation, and NMR diffusion measurements that treatment of PrrA with a phosphate analogue, BeF(3)(-), results in dimerization of the protein, producing a protein that binds DNA. No dimeric species was observed in the absence of BeF(3)(-). Upon addition of BeF(3)(-), the inhibitory activity of the N-terminal domain on the C-terminal DNA-binding domain is relieved, after which PrrA becomes capable of binding DNA as a dimer. The interaction surface of the DNA-binding domain with the regulatory domain of PrrA is identified by NMR as being a well-conserved region centered on helix alpha6, which is on the face opposite from the DNA recognition helix. This suggests that there is no direct blockage of DNA binding in the inactive state but rather that PrrA dimerization promotes a correct arrangement of two adjacent DNA-binding domains that recognizes specific DNA binding sequences.
摘要
PrrA是一种全局转录调节因子,在球形红杆菌中,响应低氧水平时,它被其同源激酶PrrB磷酸化后被激活。在这里,我们通过凝胶过滤、分析超速离心和核磁共振扩散测量表明,用磷酸盐类似物BeF₃⁻处理PrrA会导致该蛋白二聚化,产生一种能结合DNA的蛋白。在没有BeF₃⁻的情况下未观察到二聚体形式。加入BeF₃⁻后,N端结构域对C端DNA结合结构域的抑制活性被解除,之后PrrA能够以二聚体形式结合DNA。通过核磁共振确定,DNA结合结构域与PrrA调节结构域的相互作用表面是一个以α6螺旋为中心的高度保守区域,该螺旋位于与DNA识别螺旋相对的面上。这表明在无活性状态下不存在对DNA结合的直接阻碍,而是PrrA二聚化促进了两个相邻DNA结合结构域的正确排列,从而识别特定的DNA结合序列。
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