Niefind Karsten, Müller Jörg, Riebel Bettina, Hummel Werner, Schomburg Dietmar
Universität zu Köln, Institut für Biochemie, Zülpicher Strasse 47, Germany.
J Mol Biol. 2003 Mar 21;327(2):317-28. doi: 10.1016/s0022-2836(03)00081-0.
The crystal structure of the apo-form of an R-specific alcohol dehydrogenase from Lactobacillus brevis (LB-RADH) was solved and refined to 1.8A resolution. LB-RADH is a member of the short-chain dehydrogenase/reductase (SDR) enyzme superfamily. It is a homotetramer with 251 amino acid residues per subunit and uses NADP(H) as co-enzyme. NADPH and the substrate acetophenone were modelled into the active site. The enantiospecificity of the enzyme can be explained on the basis of the resulting hypothetical ternary complex. In contrast to most other SDR enzymes, the catalytic activity of LB-RADH depends strongly on the binding of Mg(2+). Mg(2+) removal by EDTA inactivates the enzyme completely. In the crystal structure, the Mg(2+)-binding site is well defined. The ion has a perfect octahedral coordination sphere and occupies a special position concerning crystallographic and molecular point symmetry, meaning that each RADH tetramer contains two magnesium ions. The magnesium ion is no direct catalytic cofactor. However, it is structurally coupled to the putative C-terminal hinge of the substrate-binding loop and, via an extended hydrogen bonding network, to some side-chains forming the substrate binding region. Therefore, the presented structure of apo-RADH provides plausible explanations for the metal dependence of the enzyme.
解出了来自短乳杆菌的R-特异性醇脱氢酶(LB-RADH)脱辅基形式的晶体结构,并将其精修至1.8埃分辨率。LB-RADH是短链脱氢酶/还原酶(SDR)酶超家族的成员。它是一种同四聚体,每个亚基有251个氨基酸残基,并使用NADP(H)作为辅酶。将NADPH和底物苯乙酮模拟到活性位点中。可以根据所得的假设三元复合物来解释该酶的对映体特异性。与大多数其他SDR酶不同,LB-RADH的催化活性强烈依赖于Mg(2+)的结合。用EDTA去除Mg(2+)会使酶完全失活。在晶体结构中,Mg(2+)结合位点定义明确。该离子具有完美的八面体配位球,并且在晶体学和分子点对称方面占据特殊位置,这意味着每个RADH四聚体包含两个镁离子。镁离子不是直接的催化辅因子。然而,它在结构上与底物结合环的假定C端铰链相连,并通过扩展的氢键网络与形成底物结合区域的一些侧链相连。因此,所呈现的脱辅基-RADH结构为该酶的金属依赖性提供了合理的解释。
