International Journal of Pharma and Bio Sciences
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10.22376/ijpbs.2019.10.1.p1-12
Volume 8 Issue 4
2017 (October - December)
Molecular docking and dynamic simulation of 3-dehydroquinate dehydratase from Mycobacterium Tuberculosis
Tuberculosis is the most common cause of death due to an infectious agent known as lessThan i greaterThan Mycobacterium tuberculosis lessThan /i greaterThan . Therefore, the aim of this study was to identify novel inhibitors of lessThan i greaterThan 3-dehydroquinate dehydratase lessThan /i greaterThan of Shikimate pathway using both naturalĀ and synthetics ligands libraries. Three dimensional structure (3D) of lessThan i greaterThan 3-dehydroquinate dehydratase lessThan /i greaterThan was retrieved from Protein Data Bank (PDB ID: 3N76) and subjected to energy minimization and protein optimization. Virtual screening was performed based on physicochemical properties (Lipinski rule of five) and biological activity. Molecular docking analysis of protein-ligand complex was carried out using AutoDock4.0 for both synthetic and natural ligands (PubChem Database and Zinc Database). Molecular Dynamic (MD) simulation was also performed to determine the stability of protein-ligand complex using CHARMM (Chemistry at Harvard Macromolecular Mechanics) force field in NAMD v2.12 (Nanoscale Molecular Dynamic Program). The results of molecular docking revealed that five molecules had high binding energy (ZINC14981770, ZINC01147665, ZINC22910025, ZINC8442077 and PubChem72341) range between -8.99 and -8.39 kcal/Mol. Leu14, Gly15, Gly18, Glu21, Tyr25, Gln52, Asp54, Gln58, Asp76, Gly79, Ile103 and Arg109 stabilised the protein-ligand complex through theformation of hydrogen bonding.Lastly, the ligands were further screening for pharmacokinetic properties based on Absorption, distribution, metabolism, excretion and toxicity (ADMET) properties. Therefore, these ligands will be recommended for the treatment of tuberculosis after successful lessThan i greaterThan in vitro lessThan /i greaterThan and lessThan i greaterThan in vivo lessThan /i greaterThan biological assay.
MUSTAFA ALHAJI ISA, BALWANT KISHAN MALIK
Nanoscale Molecular Dynamics (NAMD), Molecular Dynamic (MD) Simulation, Mycobacterium tuberculosis, 3- dehydroquinate dehydratase and Docking
314-320