Browsing by Author "Verma, Saurabh M."

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    Designing, molecular docking, and dynamics simulations studies of 1,2,3-triazole clamped Uracil-Coumarin hybrids against EGFR tyrosine kinase
    (Open Science Publishers LLP, 2020-03) Sanduja, Mohit; Gupta, Jyoti; Rawat, Ravi; Singh, Uttam; Verma, Saurabh M.
    Since the last decade, hybrid drug strategies have attracted many researchers for their improved anti-cancer potential incomparison to single drug components. Complying to this approach, 28 novel Uracil–Coumarin hybrids with differentsized linkers (2–5 carbon atoms) and substituents were designed to occupy the active site of protein epidermal growthfactor receptor (EGFR) tyrosine kinase (Protein Data Bank ID: 1M17). Molecular docking studies were performedfor all ligands (A1-D7) to identify the potential candidate using Schrödinger software. The relative binding affinity ofhybrids toward EGFR was compared with standard Erlotinib on the basis of gScore and Emodel score. Positively, allthe hybrids docked inside the cavity and showed significant interactions, compounds A6, A2, and A7 with short-chainlinker (two carbon atoms) and halogen substituents were found to have more interactions and better docking score thanstandard Erlotinib. The visualization results depicted that compound A6 showed the highest affinity and formed thebest binding pose to the target EGFR with gScore = −8.891 kcal/mol and Emodel score = −100.744 in comparison tostandard Erlotinib (gScore of −8.538 kcal/mol and Emodel score = −80.588). Moreover, a molecular dynamics studyalso reveals that ligand A6 forms a stable complex with root mean square deviation (RMSD) of 0.3 nm and the plateauphase started just after 10 ns (time). Hence, the present research provides computational insights of Uracil–Coumarinhybrids as potential ligands against EGFR tyrosine kinase and in future in vitro investigations of these hybrids mayprove their therapeutic potential against cancer.