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ABSTRACT
The aim of this investigation is to design a novel drug, screened through various computational methods, that harnesses the historical evidence of plant products inhibiting viral infections. The beta-roll domain of Flavivirus NS1, crucial for its stability, membrane interaction and viral RNA replication, underscores its significance in disease pathogenesis, being the sole non-structural protein detected in the sera of DENV-infected patients. Our goal is to develop optimised compounds that disrupt NS1 β-roll domain polymerisation, mitigating hydrophobic core formation, to effectively inhibit DENV2 cytopathic infection by leveraging natural interference with viral replication. We created 10 plant-based ligand libraries and applied scaffold hopping and bioisosteric replacement to improve them. Computational methodologies, including virtual screening, molecular dynamics simulation, contact matrix and dynamic cross correlation matrix, were employed for analysing the dynamics of the protein with the association of ligand. ADMET analysis of ligand 126 revealed a favourable ADME profile with no observed toxicity properties. Calculations of pKd, pKi and pIC50 values indicated a heightened affinity of the ligand for the receptor protein, suggesting enhanced inhibitory action and a reduced dissociation rate. These encouraging findings suggest a greater potency of the drug, warranting further in vitro testing for validation.
Acknowledgements
The authors would like to thank, Amity Institute of Biotechnology, Amity University, Kolkata, India, for their cooperation.
Disclosure statement
No potential conflict of interest was reported by the author(s).
Data availability statement
All data generated and studies are available within this manuscript and its supplementary article.