Kaur P
Department of Biology, Georgia State University, Atlanta, Georgia 30303, USA.
J Biol Chem. 1999 Sep 3;274(36):25849-54. doi: 10.1074/jbc.274.36.25849.
ArsA, an anion-stimulated ATPase, consists of two nucleotide binding domains, A1 in the N terminus and A2 in the C terminus of the protein, connected by a linker. The A1 domain contains a high affinity ATP binding site, whereas the A2 domain has low affinity and it requires the allosteric ligand antimonite for binding ATP. ArsA is known to form a UV-activated adduct with [alpha-(32)P]ATP in the linker region. This study shows that on addition of antimonite, much more adduct is formed. Characterization of the nature of the adduct suggests that it is between ArsA and ADP, instead of ATP, indicating that the adduct formation reflects hydrolysis of ATP. The present study also demonstrates that the A1 domain is capable of carrying out unisite catalysis in the absence of antimonite. On addition of antimonite, multisite catalysis involving both A1 and A2 sites occurs, resulting in a 40-fold increase in ATPase activity. Studies with mutant proteins suggest that the A2 site may be second in the sequence of events, so that its role in catalysis is dependent on a functional A1 site. It is also proposed that ArsA goes through an ATP-bound and an ADP-bound conformation, and the linker region, where ADP binds under both unisite and multisite catalytic conditions, may play an important role in the energy transduction process.
ArsA是一种阴离子刺激型ATP酶,由两个核苷酸结合结构域组成,即位于蛋白质N端的A1和位于C端的A2,二者通过一个连接区相连。A1结构域含有一个高亲和力ATP结合位点,而A2结构域亲和力较低,需要变构配体亚锑酸盐才能结合ATP。已知ArsA在连接区与[α-(32)P]ATP形成紫外线激活加合物。本研究表明,加入亚锑酸盐后,会形成更多的加合物。对加合物性质的表征表明,它是ArsA与ADP之间形成的,而非与ATP,这表明加合物的形成反映了ATP的水解。本研究还证明,在没有亚锑酸盐的情况下,A1结构域能够进行单位点催化。加入亚锑酸盐后,会发生涉及A1和A2位点的多位点催化,导致ATP酶活性增加40倍。对突变蛋白的研究表明,A2位点可能在事件序列中排在第二位,因此其在催化中的作用取决于功能性A1位点。还提出ArsA会经历ATP结合和ADP结合两种构象,并且在单位点和多位点催化条件下ADP均能结合的连接区,可能在能量转导过程中起重要作用。
