Epidermal growth factor receptors (EGFR) are critical for the growth of many tumors and expressed at high levels in about one
third of epithelial cancers. Hence, blockade of the binding sites for EGFR has been hypothesized as an effective anti-cancer therapy.
Chalcone derivative compounds have been shown to be highly effective anti-cancer agents, however there are still so many novel
derivatives possible, one of which might get us the best targeted EGFR inhibitor. In this effort directed towards the discovery of
novel, potent anti-tumor agents for the treatment of cancer, in the present study a library of novel chalcone series of compounds
has been designed and evaluated for their anti-cancer activity targeting EGFR kinase domain using various computational
approaches. Among the twenty five novel designed chalcone series of compounds, all of them have found to be successfully
docking inside the active binding domain of EGFR receptor target with a binding energy in a range of -6.10 to -9.25 Kcal/mol with
predicted IC50 value range of 33.50 micor molar to 164.66 nano molar respectively. On the other hand, calculated 2DQSAR
molecular descriptor properties of the compounds showed promising ADME parameters and found to be well in compliance with
Lipinski׳s rule of five. Among all the twenty five compounds tested, compound 21 ((2E)-3-(anthracen-9-yl)-1-phenylprop-2-2n-1-
one) was found to be the best lead like molecule with a binding energy of -9.25 kcal/mol with predicted IC50 value of 164.66 nano
molar. Conclusively, novel designed compound 21 of the present study have shown promising anti-cancer potential worth
considering for further evaluations.
It is of interest to document the molecular docking and dynamic simulations of benzimidazoles with beta-tubulins in the context of anthelmintic activity. We document the compound BI-02 (2-(3,4-dimethyl phenyl)-1H-1,3-benzimidazole (BI-02) with optimal bindig features compared to the standard molecule albendazole (7.0 Kcal/mol) with binding energy -8.50 Kcal/mol and PIC50 value 583.62 nM.
It is of interest to document the molecular docking and dynamic simulations of benzimidazoles with beta-tubulins in the context of anthelmintic activity. We document the compound BI-02 (2-(3,4-dimethyl phenyl)-1H-1,3-benzimidazole (BI-02) with optimal bindig features compared to the standard molecule albendazole (7.0 Kcal/mol) with binding energy -8.50 Kcal/mol and PIC50 value 583.62 nM.
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