So S S, Karplus M
Department of Chemistry and Chemical Biology, Harvard University, Cambridge, Massachusetts 02138, USA.
J Comput Aided Mol Des. 2001 Jul;15(7):613-47. doi: 10.1023/a:1011945119287.
Glycogen phosphorylase (GP) is an important enzyme that regulates blood glucose level and a key therapeutic target for the treatment of type II diabetes. In this study, a number of potential GP inhibitors are designed with a variety of computational approaches. They include the applications of MCSS, LUDI and CoMFA to identify additional fragments that can be attached to existing lead molecules; the use of 2D and 3D similarity-based QSAR models (HQSAR and SMGNN) and of the LUDI program to identify novel molecules that may bind to the glucose binding site. The designed ligands are evaluated by a multiple screening method, which is a combination of commercial and in-house ligand-receptor binding affinity prediction programs used in a previous study (So and Karplus, J. Comp.-Aid. Mol. Des., 13 (1999), 243-258). Each method is used at an appropriate point in the screening, as determined by both the accuracy of the calculations and the computational cost. A comparison of the strengths and weaknesses of the ligand design approaches is made.
糖原磷酸化酶(GP)是一种调节血糖水平的重要酶,也是治疗II型糖尿病的关键治疗靶点。在本研究中,运用多种计算方法设计了许多潜在的GP抑制剂。这些方法包括应用MCSS、LUDI和CoMFA来识别可连接到现有先导分子上的其他片段;使用基于二维和三维相似性的QSAR模型(HQSAR和SMGNN)以及LUDI程序来识别可能与葡萄糖结合位点结合的新分子。通过多重筛选方法对设计的配体进行评估,该方法是先前研究中使用的商业和内部配体-受体结合亲和力预测程序的组合(So和Karplus,《计算机辅助分子设计杂志》,13(1999),243-258)。根据计算的准确性和计算成本,在筛选的适当阶段使用每种方法。对配体设计方法的优缺点进行了比较。
