Acharya Samir
Department of Molecular Virology, Immunology and Medical Genetics, and Comprehensive Cancer Center, Ohio State University, Columbus, OH 43210, USA.
Mol Microbiol. 2008 Sep;69(6):1544-59. doi: 10.1111/j.1365-2958.2008.06386.x. Epub 2008 Jul 30.
MutS protein dimer recognizes and co-ordinates repair of DNA mismatches. Mismatch recognition by the N-terminal mismatch recognition domain and subsequent downstream signalling by MutS appear coupled to the C-terminal ATP catalytic site, Walker box, through nucleotide-mediated conformational transitions. Details of this co-ordination are not understood. The focus of this study is a conserved loop in Escherichia coli MutS that is predicted to mediate cross-talk between the two ATP catalytic sites in MutS homodimer. Mutagenesis was employed to assess the role of this loop in regulating MutS function. All mutants displayed mismatch repair defects in vivo. Biochemical characterization further revealed defects in ATP binding, ATP hydrolysis as well as effective mismatch recognition. The kinetics of initial burst of ATP hydrolysis was similar to wild type but the magnitude of the burst was reduced for the mutants. Given its proximity to the ATP bound in the opposing monomer in the crystal and its potential analogy with signature motif of ABC transporters, the results strongly suggest that the loop co-ordinates ATP binding/hydrolysis in trans by the two catalytic sites. Importantly, our data reveal that the loop plays a direct role in co-ordinating conformational changes involved in long-range communication between Walker box and mismatch recognition domains.
MutS蛋白二聚体识别并协调DNA错配修复。N端错配识别结构域对错配的识别以及MutS随后的下游信号传导似乎通过核苷酸介导的构象转变与C端ATP催化位点(沃克盒)相偶联。这种协调的细节尚不清楚。本研究的重点是大肠杆菌MutS中一个保守环,预计该环介导MutS同型二聚体中两个ATP催化位点之间的相互作用。采用诱变方法评估该环在调节MutS功能中的作用。所有突变体在体内均表现出错配修复缺陷。生化特性进一步揭示了ATP结合、ATP水解以及有效错配识别方面的缺陷。ATP水解初始爆发的动力学与野生型相似,但突变体的爆发幅度降低。鉴于其在晶体中与相对单体中结合的ATP接近,以及其与ABC转运蛋白特征基序的潜在相似性,结果强烈表明该环通过两个催化位点反式协调ATP结合/水解。重要的是,我们的数据表明该环在协调沃克盒与错配识别结构域之间远程通讯所涉及的构象变化中起直接作用。
