Tomoo K, Ohishi H, Ishida T, Inoue M, Ikeda K, Sumiya S, Kitamura K
Osaka University of Pharmaceutical Sciences, Japan.
Proteins. 1994 Aug;19(4):330-9. doi: 10.1002/prot.340190408.
The crystal structure of n-dodecylphosphorylcholine (n-C12PC)-bovine pancreas phospholipase A2 (PLA2) complex provided the following structural characteristics: (1) the dodecyl chain of n-C12PC was located at the PLA2 N-terminal helical region by hydrophobic interactions, which corresponds to the binding pocket of 2-acyl fatty acid chain (beta-chain) of the substrate phospholipid, (2) the region from Lys-53 to Lys-56 creates a choline-receiving pocket of n-C12PC and (3) the N-terminal group of Ala-1 shifts significantly toward the Tyr-52 OH group by the binding of the n-C12PC inhibitor. Since the accuracy of the X-ray analysis (R = 0.275 at 2.3 A resolution) was insufficient to establish these important X-ray insights, the complex structure was further investigated through the molecular dynamics (MD) simulation, assuming a system in aqueous solution at 310K. The MD simulation covering 176 ps showed that the structural characteristics observed by X-ray analysis are intrinsic and also stable in the dynamic state. Furthermore, the MD simulation made clear that the PLA2 binding pocket is large enough to permit the conformational fluctuation of the n-C12PC hydrocarbon chain.
正十二烷基磷酰胆碱(n-C12PC)-牛胰磷脂酶A2(PLA2)复合物的晶体结构具有以下结构特征:(1)n-C12PC的十二烷基链通过疏水相互作用位于PLA2的N端螺旋区域,该区域对应于底物磷脂的2-酰基脂肪酸链(β链)的结合口袋;(2)从Lys-53到Lys-56的区域形成了n-C12PC的胆碱接纳口袋;(3)n-C12PC抑制剂的结合使Ala-1的N端基团显著向Tyr-52的羟基移动。由于X射线分析的准确性(在2.3 Å分辨率下R = 0.275)不足以确立这些重要的X射线观察结果,因此通过分子动力学(MD)模拟进一步研究了该复合物结构,假设体系处于310K的水溶液中。涵盖176 ps的MD模拟表明,X射线分析观察到的结构特征是内在的,并且在动态状态下也是稳定的。此外,MD模拟还表明PLA2结合口袋足够大,能够允许n-C12PC烃链的构象波动。
