Bioinformatic investigation of Nipah virus surface protein mutations: Molecular docking with Ephrin B2 receptor, molecular dynamics simulation, and structural impact analysis

Abstract: The SARS‐CoV‐2 outbreak resulted in significant challenges and loss of life. The Nipah virus, known for its high infectivity and severity, was designated an emergency concern by the World Health Organization. To understand its mutations, the Nipah virus proteins were analyzed extensively, with a focus on the essential G and F proteins responsible for viral entry into host cells. Our bioinformatics analysis unveiled multiple mutations, including simultaneous mutations within a single sequence. Notably, the G273… Show more

“…It was used to analyze the RMSD values, the eigenvalue of interacting residues, the deformation of structure, and co-variance among individual residues. It discovers the stability of complexes based on detailed coordinate investigation [ 39 ].…”

Multi-epitopes vaccine design for surface glycoprotein against SARS-CoV-2 using immunoinformatic approach

“…It was used to analyze the RMSD values, the eigenvalue of interacting residues, the deformation of structure, and co-variance among individual residues. It discovers the stability of complexes based on detailed coordinate investigation [ 39 ].…”

Multi-epitopes vaccine design for surface glycoprotein against SARS-CoV-2 using immunoinformatic approach

Application of Molecular Modeling Techniques to Investigate Phytochemicals as Prospective Anti-Malarial Agents