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Broad-Spectrum Inhibitor Discovery Targeting Coronavirus Nucleocapsid Proteins via 3D Structure-Based Virtual Screening and Molecular Dynamics

  • Ebtisam Aldaais*
  • , Munthir Aldukhi
  • , Hind Alotaibi
  • , Heba Mofleh Alzabni
  • , Subha Yegnaswamy
  • , Nada F. Alahmady
  • *Corresponding author for this work
  • Imam Abdulrahman Bin Faisal University
  • D Y Patil Group

Research output: Contribution to journalArticlepeer-review

Abstract

Rapid antigenic drift in the coronavirus spike protein motivates alternative antiviral strategies. We target the conserved nucleocapsid (N) protein—central to RNA binding, genome packaging, and replication—and perform a comparative, cross-species 3D structure-based in silico evaluation. A library of 494 compounds (natural, phytochemical, synthetic) was docked with AutoDock Vina against the MERS-CoV N–terminal RNA–binding domain (NTD; PDB 7DYD) and the C–terminal dimerization domains (CTD) of SARS-CoV (2CJR) and SARS-CoV-2 (8R6E), reflecting the availability of high-resolution, functionally relevant domain structures for each virus. Top-ranked poses underwent ADME profiling and 100 ns GROMACS molecular-dynamics (MD) simulations. Myricetin 3-O-β-D-Galactopyranoside (myricetin) showed the most favorable predicted docking scores across targets (−8.9 kcal/mol, MERS–NTD; −10.1, SARS–CTD; −9.8, SARS-CoV-2 CTD). Curcumin showed moderate predicted affinity (−7.1 to −8.1), while MCC950 achieved consistently favorable docking score (−7.9 to −9.0). ADME results highlighted a trade-off: glycosylated flavonoids offered rich interaction networks but violated oral drug-likeness criteria (e.g., high TPSA), whereas MCC950 met Lipinski/Veber guidelines, supporting translational potential. MD analyses revealed ligand- and target-specific stability: myricetin maintained persistent binding over 100 ns in the SARS-CoV-2 CTD with lower RMSD than comparators; curcumin exhibited transient stability (~30 ns) in MERS- and SARS-bound complexes; MCC950 showed intermittent interactions. Collectively, these findings suggest that the conserved N protein RNA-binding groove represents a resistance-resilient target for broad-spectrum antiviral discovery. Natural flavonoids provide promising scaffolds for optimization, and MCC950 warrants further exploration given its drug-like profile. As this study is purely computational, the results are hypothesis-generating and should be validated via RNA-binding disruption assays, antiviral cell studies, and in vivo models.

Original languageEnglish
Article number36
JournalCOVID
Volume6
Issue number3
DOIs
StatePublished - Mar 2026

Keywords

  • broad-spectrum antiviral
  • coronavirus
  • curcumin
  • MCC950
  • molecular dynamics
  • myricetin
  • nucleocapsid protein
  • SARS-CoV-2
  • virtual screening

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