RESUMEN
With Covid-19, a significant proportion of the population who are already vaccinated have tested positive. Therefore, there is a need for better medicines that act against the virus rigorously without causing any side effects. We aim to achieve the same through molecular docking and further simulations for bioactive phytochemicals of ayurvedic medicinal plants. The target for this study has been considered the NSP3 protein of the viral RNA that actively takes part in both replication and immune evasion pathways of the virus. Ligand libraries consisting of bioactive phytochemicals of aswasgandha and analogues of curcumin and piperine are curated. The libraries, along with the NSP3 protein moiety are docked onto two active sites. With the best-scored complexes further taken up for molecular dynamics simulation, the study resulted in favourable outcomes for three such ligands (compound ID 5469426, 69501714, ZINC000003874317). © 2023 Bharati Vidyapeeth, New Delhi.