Molecular Docking and Molecular Dynamics Simulations of Synthesized Thiazole-Isatin-1,2,3-triazole Hybrids as Promising Inhibitors for DNA Gyrase and Sterol 14α-Demethylase.

In the present work, a new class of thiazole-isatin-1,2,3-triazole hybrids (5 a-5 p) and precursor alkyne hybrids (6 a-6 d) has been reported with their in-silico studies. After structural identifications using different spectroscopic technique such as FTIR, H and C NMR and HRMS, the synthesized hybrids were explored for their biological potential using molecular docking and molecular dynamics calculations. Molecular docking results revealed that compound 5 j showed maximum binding energy i. e. -10.3 and -12.6 kcal/mol against antibacterial and antifungal enzymes; 1KZN (E. coli) and 5TZ1 (C. albicans), respectively. Molecular dynamics simulations for the best molecule (100 ns) followed by PBSA calculations suggested a stable complex of 5 j with 5TZ1 with binding energy of -118.760 kJ/mol as compared to 1KZN (-94.593 kJ/mol). The mean RMSD values for the 1KZN with 5 j complex remained approximately 0.175 nm throughout all the time span of 100 ns in the production stages and is in the acceptable range. Whereas, 5TZ1 with 5 j complex, RMSD values exhibited variability within the range of 0.15-0.25 nm.