P. BabuAjay, Chitti Sashikanth, B. Rajesh, Prasanth Vishnu, Kishen Radha Jv, R. ValiKhadar
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引用次数: 5
摘要
对一系列噻唑[5,4-f]喹唑啉-9- 1衍生物作为GSK-3β抑制剂进行了自动对接。采用对接技术,利用AutoDock 3.05将一组具有代表性的化合物在1UV5的活性位点区域进行对接。对这些化合物进行了结合自由能(kcal/mol)与IC50 (μM)值的相关性分析。对接模拟清楚地预测了在1.0 A RMSD范围内与晶体学结合模式接近的结合模式。基于R1和R2取代基的验证和相互作用,我们开始考虑简单的组合来设计抑制剂。化合物17对GSK-3β具有较大的结合能(-13.14 kcal/mol)。这些结果有助于理解设计配体与GSK-3β结合位点区域之间发生的相互作用类型,并解释R1和R2取代对噻唑[5,4-f]喹唑啉-9- 1衍生物的重要性。
Automated docking was performed on a series of thiazolo[5,4-f]quinazolin-9-one derivatives as GSK-3β inhibitors. The docking technique was employed to dock a set of representative compounds within the active site region of 1UV5 using AutoDock 3.05. For these compounds, the correlation between binding free energy (kcal/mol) and IC50 (μM) values were examined. The docking simulation clearly predicted the binding mode that is nearly similar to the crystallographic binding mode within 1.0 A RMSD. Based on the validations and interactions made by R1 and R2 substituents, inhibitor design was initiated by considering simple combinations. For the designed compounds where the interactions and dock scores are being considered for evaluation, compound 17 exhibited large binding energy (-13.14 kcal/mol) against GSK-3β than the remaining. The results help to understand the type of interactions that occur between designed ligands with GSK-3β binding site region and explain the importance of R1 and R2 substitutions on thiazolo[5,4-f]quinazolin-9-one derivatives.
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