Author: Al-Mazaideh, G. M.; Shalayel, M. H.; Al-Swailmi, F. K.; Aladaileh, S. H.
Title: Vitamin D is a New Promising Inhibitor to the Main Protease (Mpro) of COVID-19 by Molecular Docking Cord-id: tfh3jb2r Document date: 2021_1_1
ID: tfh3jb2r
Snippet: In this study, vitamin D has shown greater efficacy of binding with M-pro of COVID-19 compared to the recently recommended drugs. The docking study was simulated to streamline interaction effects of Vitamin D, Remdesivir, Chloroquine, Hydroxychloroquine, Aspirin, and Azithromycin complexes with the active site of M-pro. Vitamin D is found to have the highest potential interaction in terms of total H-bond, van der Waal, torsional, and desolvation energy which were the lowest among all the selecte
Document: In this study, vitamin D has shown greater efficacy of binding with M-pro of COVID-19 compared to the recently recommended drugs. The docking study was simulated to streamline interaction effects of Vitamin D, Remdesivir, Chloroquine, Hydroxychloroquine, Aspirin, and Azithromycin complexes with the active site of M-pro. Vitamin D is found to have the highest potential interaction in terms of total H-bond, van der Waal, torsional, and desolvation energy which were the lowest among all the selected drugs. The hydroxyl group of vitamin D and the thiol group of M-pro cysteine had played a leading role in increasing Vitamin D binding and stability with the M-pro pocket by contribution to the inception of three hydrogen bonds. The study recommend that vitamin D can be added to the COVID-19 treatment protocol, which may have the desired effect on viral replication inhibition and decreases mortality.
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