Molecular Simulation of GSK-3β Inhibitors Based on Active Components of Chinese Herbal Medicines

doi:10.16333/j.1001-6880.2018.12.006

Abstract

Abstract: Molecular docking and dynamic methods were employed to explore the inhibition mechanism of several constituents from herbal medicines with Glycogen synthase kinase-3β (GSK-3β).The results showed that four selected constituents,which included rutin,myricanone,dihydrotanshinone I and ginsenoside Rb1,fitted well within the binding cleft of GSK-3β.Among them,rutin,myricanone and dihydrotanshinone I mainly binded to the ATP-binding pocket region of GSK-3β,and ginsenoside Rb1 mainly binded to the T-loop region of GSK-3β.The number and the survival rate of hydrogen bonds are the main factors affecting the binding ability.The formation of hydrogen bonds mainly depends on the oxygen-containing and nitrogen-containing groups in these ligands.Structural design based on these active ingredients may result in a highly effective inhibitor of GSK-3β.

Key words: glycogen synthase kinase-3 inhibitor, active ingredients of herbal medicine, molecular docking, molecular simulation

CLC Number:

R28
Q966

TANG Wen-qiang1,3, ZHANG Jing-xiao2*, ZHANG Li-lei2. Molecular Simulation of GSK-3β Inhibitors Based on Active Components of Chinese Herbal Medicines[J]. NATURAL PRODUCT RESEARCH AND DEVELOPMENT, 2018, 30(12): 2070-2076.

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Molecular Simulation of GSK-3β Inhibitors Based on Active Components of Chinese Herbal Medicines

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