Molecular docking and molecular dynamics studies of sars-cov-2 inhibitors: Crocin, digitoxigenin, beta-eudesmol and favipiravir: Comparative study

Mora, José R.; Cuesta, Sebastián A; Belhassan, Assia; Salgado Morán, Guillermo; Lakhlifi, Tahar; Bouachrine, Mohammed; Peña F., Carlos; Gerli C., Lorena; Mendoza-Huízar, Luís Humberto

doi:10.33263/BRIAC124.55915600

Molecular docking and molecular dynamics studies of sars-cov-2 inhibitors: Crocin, digitoxigenin, beta-eudesmol and favipiravir: Comparative study

Fecha de emisión

2022-08-15

Autor(es)

Mora, José R.

Cuesta, Sebastián A

Belhassan, Assia

Salgado Morán, Guillermo

Lakhlifi, Tahar

Bouachrine, Mohammed

Peña F., Carlos

Gerli C., Lorena

Mendoza-Huízar, Luís Humberto

DOI

10.33263/BRIAC124.55915600

Resumen

In this study, Crocin, Digitoxigenin, Beta-Eudesmol, and Favipiravir were docked in the active site of SARS-CoV-2 main protease (PDB code: 6LU7). The docking study was followed by Molecular Dynamics simulation. The result indicates that Crocin and Digitoxigenin are the structures with the best affinity in the studied enzyme's binding site. Still, Molecular Dynamics simulation showed that Digitoxigenin is the molecule that fits better in the active site of the main protease. Therefore, this molecule could have a more potent antiviral treatment of COVID-19 than the other three studied compounds.