Unraveling the binding mechanism of the active form of Remdesivir to RdRp of SARS-CoV-2 and designing new potential analogues: Insights from molecular dynamics simulations

揭示瑞德西韦活性形式与SARS-CoV-2 RdRp的结合机制并设计新的潜在类似物:来自分子动力学模拟的启示

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作者:Arba,Muhammad,Paradis,Nicholas,Wahyudi,Setyanto T,Brunt,Dylan J,Hausman,Katherine R,Lakernick,Phillip M,Singh,Mursalin,Wu,Chun
期刊:Chemical Physics Letters影响因子:3.100
时间:2022起止号:2022 Jul 16;799:139638
doi:10.1016/j.cplett.2022.139638

Abstract

The binding of the active form of Remdesivir (RTP) to RNA-dependent RNA Polymerase (RdRp) of SARS-CoV-2 was studied using molecular dynamics simulation. The RTP maintained the interactions observed in the experimental cryo-EM structure. Next, we designed new analogues of RTP, which not only binds to the RNA primer strand in a similar pose as that of RTP, but also binds more strongly than RTP does as predicted by MM-PBSA binding energy. This suggest that these analogues might be able to covalently link to the primer strand as RTP, but their 3' modification would terminate the primer strand growth.

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