Flynn P, Mellor H, Palmer R, Panayotou G, Parker P J
Protein Phosphorylation Laboratory, Imperial Cancer Research Fund, 44 Lincoln's Inn Fields, London WC2A 3PX, United Kingdom.
J Biol Chem. 1998 Jan 30;273(5):2698-705. doi: 10.1074/jbc.273.5.2698.
PRK1 (PKN) is a serine/threonine kinase that has been shown to be activated by RhoA (Amano, M., Mukai, H., Ono, Y., Chihara, K., Matsui, T., Hamajima, Y., Okawa, K., Iwamatsu, A., and Kaibuchi, K. (1996) Science 271, 648-650). Detailed analysis of the PRK1 region involved in RhoA binding has revealed that two homologous sequences within the HR1 domain (HR1a and HR1b) both bind to RhoA; the third repeat within this domain, HR1cPRK1, does not bind RhoA. The related HR1 motif is also found to confer RhoA binding activity to the only other fully cloned member of this kinase family, PRK2. Furthermore, the predictive value of this motif is established for an HR1a sequence derived from a Caenorhabditis elegans open reading frame encoding a protein kinase of unknown function. Interestingly, the HR1aPRK1 and HR1bPRK1 subdomains are shown to display a distinctive nucleotide dependence for RhoA binding. HRIaPRK1 is entirely GTP-dependent, while HR1bPRK1 binds both GTP- and GDP-bound forms of RhoA. This distinction indicates that there are two sites of contact between RhoA and PRK1, one contact through a region that is conformationally dependent upon the nucleotide-bound state of RhoA and one that is not. Analysis of binding to Rho/Rac chimera provides evidence for a HR1aPRK1 but not HR1bPRK1 interaction in the central third of Rho. Additionally, it is observed that the V14RhoA mutant binds HR1a but does not bind HR1b. This distinct binding behavior corroborates the conclusion that there are independent contacts on RhoA for the HR1aPRK1 and HR1bPRK1 motifs.
PRK1(PKN)是一种丝氨酸/苏氨酸激酶,已被证明可被RhoA激活(天野,M.,向井,H.,小野,Y.,千原,K.,松井,T.,滨岛,Y.,小川,K.,岩松,A.,及海部,K.(1996年)《科学》271卷,648 - 650页)。对PRK1中与RhoA结合相关区域的详细分析表明,HR1结构域内的两个同源序列(HR1a和HR1b)均与RhoA结合;该结构域内的第三个重复序列HR1cPRK1不与RhoA结合。还发现相关的HR1基序赋予该激酶家族中另一个完全克隆的成员PRK2 RhoA结合活性。此外,对于源自秀丽隐杆线虫开放阅读框、编码功能未知的蛋白激酶的HR1a序列,确定了该基序的预测价值。有趣的是,HR1aPRK1和HR1bPRK1亚结构域对RhoA结合显示出独特的核苷酸依赖性。HR1aPRK1完全依赖GTP,而HR1bPRK1结合GTP结合形式和GDP结合形式的RhoA。这种差异表明RhoA与PRK1之间存在两个接触位点,一个通过构象依赖于RhoA核苷酸结合状态的区域接触,另一个则不依赖。对与Rho/Rac嵌合体结合的分析为HR1aPRK1而非HR1bPRK1在Rho中部三分之一区域的相互作用提供了证据。此外,观察到V14RhoA突变体结合HR1a但不结合HR1b。这种独特的结合行为证实了RhoA上存在与HR1aPRK1和HR1bPRK1基序独立接触的结论。
