Huang Sha, Romanchuk Gail, Pattridge Katherine, Lesley Scott A, Wilson Ian A, Matthews Rowena G, Ludwig Martha
Life Sciences Institute, University of Michigan, Ann Arbor, Michigan 48109-2216, USA.
Protein Sci. 2007 Aug;16(8):1588-95. doi: 10.1110/ps.072936307.
The crystal structure of the Thermotoga maritima gene product TM0269, determined as part of genome-wide structural coverage of T. maritima by the Joint Center for Structural Genomics, revealed structural homology with the fourth module of the cobalamin-dependent methionine synthase (MetH) from Escherichia coli, despite the lack of significant sequence homology. The gene specifying TM0269 lies in close proximity to another gene, TM0268, which shows sequence homology with the first three modules of E. coli MetH. The fourth module of E. coli MetH is required for reductive remethylation of the cob(II)alamin form of the cofactor and binds the methyl donor for this reactivation, S-adenosylmethionine (AdoMet). Measurements of the rates of methionine formation in the presence and absence of TM0269 and AdoMet demonstrate that both TM0269 and AdoMet are required for reactivation of the inactive cob(II)alamin form of TM0268. These activity measurements confirm the structure-based assignment of the function of the TM0269 gene product. In the presence of TM0269, AdoMet, and reductants, the measured activity of T. maritima MetH is maximal near 80 degrees C, where the specific activity of the purified protein is approximately 15% of that of E. coli methionine synthase (MetH) at 37 degrees C. Comparisons of the structures and sequences of TM0269 and the reactivation domain of E. coli MetH suggest that AdoMet may be bound somewhat differently by the homologous proteins. However, the conformation of a hairpin that is critical for cobalamin binding in E. coli MetH, which constitutes an essential structural element, is retained in the T. maritima reactivation protein despite striking divergence of the sequences.
作为结构基因组学联合中心对嗜热栖热菌进行全基因组结构覆盖研究的一部分,所测定的嗜热栖热菌基因产物TM0269的晶体结构显示,它与大肠杆菌中钴胺素依赖性蛋氨酸合酶(MetH)的第四个模块存在结构同源性,尽管二者缺乏显著的序列同源性。编码TM0269的基因紧邻另一个基因TM0268,后者与大肠杆菌MetH的前三个模块存在序列同源性。大肠杆菌MetH的第四个模块是辅因子钴胺素(II)形式进行还原甲基化所必需的,并且结合用于此再激活的甲基供体S-腺苷甲硫氨酸(AdoMet)。在有和没有TM0269及AdoMet存在的情况下对蛋氨酸形成速率的测量表明,TM0269和AdoMet都是使无活性的TM0268钴胺素(II)形式重新激活所必需的。这些活性测量结果证实了基于结构对TM0269基因产物功能的认定。在存在TM0269、AdoMet和还原剂的情况下,所测得的嗜热栖热菌MetH的活性在接近80摄氏度时最大,此时纯化蛋白的比活性约为大肠杆菌蛋氨酸合酶(MetH)在37摄氏度时比活性的15%。对TM0269和大肠杆菌MetH再激活结构域的结构与序列比较表明,同源蛋白对AdoMet的结合方式可能有所不同。然而,尽管序列存在显著差异,但在嗜热栖热菌再激活蛋白中保留了对大肠杆菌MetH中钴胺素结合至关重要的发夹结构的构象,该发夹结构是一个必不可少的结构元件。