In silico study of inhibition activity of boceprevir drug against 2019-nCoV main protease.

Boceprevir drug is a ketoamide serine protease inhibitor with a linear peptidomimetic structure that exhibits inhibition activity against 2019-nCoV main protease. This paper reports electronic properties of boceprevir and its molecular docking as well as molecular dynamics simulation analysis with protein receptor. For this, the equilibrium structure of boceprevir has been obtained by DFT at B3LYP and ωB97XD levels with 6-311+G(d,p) basis set in gas and water mediums. HOMO-LUMO and absorption spectrum analysis have been used to evaluate the boceprevir's toxicity and photosensitivity, respectively. Molecular docking simulation has been performed to test the binding affinity of boceprevir with 2019-nCoV MPRO; which rendered a variety of desirable binding locations between the ligand and target protein's residue positions. The optimum binding location has been considered for molecular dynamics simulation. The findings have been addressed to clarify the boceprevir drug efficacy against the 2019-nCoV MPRO.

Targeting domain-III hinging of dengue envelope (DENV-2) protein by MD simulations, docking and free energy calculations.

The entry of the dengue virus is mediated by the conformational change in the envelope protein due to change in the endosomal pH. The structural study reveals that domain-III of the dengue envelope protein (DENV) shows the largest shift in its position during the entry of the virus. Therefore, targeting the hinge region of the domain-III may block the conformational changes in the DENV. In the present work, we have targeted the domain I/III hinge region using four known ligands used for the dengue envelope protein (serotype-2) and have intended to explore the specificity of one ligand R1 (5-(3-chlorophenyl)-N-(2-phenyl-2H-benzo[d][1,2,3]triazol-6-yl)furan-2-carboxamide) that succeeded the dengue inhibition by the molecular dynamics (MD) simulations in conjunction of the molecular docking and the binding free energy calculations. The residue interactions map shows Lys 296 of domain-III of the DENV-2, which might be responsible for binding small molecules between domain I/III interface, as an important residue conserved in all the dengue serotypes.