枯草芽孢杆菌5-甲基硫代核糖-1-磷酸异构酶产物复合物的晶体结构:对催化机制的启示
Crystal structure of 5-methylthioribose 1-phosphate isomerase product complex from Bacillus subtilis: implications for catalytic mechanism.
作者信息
Tamura Haruka, Saito Yohtaro, Ashida Hiroki, Inoue Tsuyoshi, Kai Yasushi, Yokota Akiho, Matsumura Hiroyoshi
机构信息
Department of Applied Chemistry, Graduate School of Engineering, Osaka University, Osaka, Japan.
出版信息
Protein Sci. 2008 Jan;17(1):126-35. doi: 10.1110/ps.073169008.
Abstract
The methionine salvage pathway (MSP) plays a crucial role in recycling a sulphahydryl derivative of the nucleoside. Recently, the genes and reactions in MSP from Bacillus subtilis have been identified, where 5-methylthioribose 1-phosphate isomerase (M1Pi) catalyzes a conversion of 5-methylthioribose 1-phosphate (MTR-1-P) to 5-methylthioribulose 1-phosphate (MTRu-1-P). Herein, we report the crystal structures of B. subtilis M1Pi (Bs-M1Pi) in complex with its product MTRu-1-P, and a sulfate at 2.4 and 2.7 A resolution, respectively. The electron density clearly shows the presence of each compound in the active site. The structural comparison with other homologous proteins explains how the substrate uptake of Bs-M1Pi may be induced by an open/closed transition of the active site. The highly conserved residues at the active site, namely, Cys160 and Asp240 are most likely to be involved in catalysis. The structural analysis sheds light on its catalytic mechanism of M1Pi.
摘要
甲硫氨酸补救途径(MSP)在核苷的巯基衍生物循环利用中起着关键作用。最近,已鉴定出枯草芽孢杆菌MSP中的基因和反应,其中5-甲基硫代核糖1-磷酸异构酶(M1Pi)催化5-甲基硫代核糖1-磷酸(MTR-1-P)转化为5-甲基硫代核酮糖1-磷酸(MTRu-1-P)。在此,我们分别报道了枯草芽孢杆菌M1Pi(Bs-M1Pi)与其产物MTRu-1-P以及硫酸盐形成复合物时分辨率为2.4 Å和2.7 Å的晶体结构。电子密度清楚地显示了活性位点中每种化合物的存在。与其他同源蛋白的结构比较解释了Bs-M1Pi的底物摄取可能是如何由活性位点的开放/闭合转变诱导的。活性位点处高度保守的残基,即Cys160和Asp240最有可能参与催化作用。结构分析揭示了M1Pi的催化机制。
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