In silico docking studies, synthsis and chacterization of some nove 1,3,4 thiadiazole analogues of 4-amino hippuric acid as potent antimicrobial agents
By: Daniel, K
.
Contributor(s): Daniel, V.
Publisher: Mumbai Indian Drug Manufacture's Association - IDMA 2018Edition: Vol. 55(12), December.Description: 7-17.Subject(s): PHARMACEUTICSOnline resources: Click here
In:
Indian drugsSummary: The chemistry of heterocyclic compounds has been an interesting field of study for a long time. The heterocyclic nucleus 1,3,4-thiadiazole constitutes an important class of compounds for new drug development. The synthesis of novel thiadiazole derivatives and investigation of their chemical and biological behaviour have gained more importance in recent decades. Molecular docking is a key tool in structural molecular biology and CADD. The goal of the ligand protein is to predict the predominant binding model(s) of ligand with a protein of known 3D structure. In the present work, the motto was to develop new the anti-microbial agents. 1,3,4 Thiadiazole derivative of 4-amino hippuric acid show good anti-microbial activity and greater selectivity with glucosamine - 6 - phosphate synthetase (PDB ID in 2VF5) with flexible molecular docking studies.
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School of Pharmacy Archieval Section | Not for loan | 2018377 |
The chemistry of heterocyclic compounds has been an interesting field of study for a long time. The heterocyclic nucleus 1,3,4-thiadiazole constitutes an important class of compounds for new drug development. The synthesis of novel thiadiazole derivatives and investigation of their chemical and biological behaviour have gained more importance in recent decades. Molecular docking is a key tool in structural molecular biology and CADD. The goal of the ligand protein is to predict the predominant binding model(s) of ligand with a protein of known 3D structure. In the present work, the motto was to develop new the anti-microbial agents. 1,3,4 Thiadiazole derivative of 4-amino hippuric acid show good anti-microbial activity and greater selectivity with glucosamine - 6 - phosphate synthetase (PDB ID in 2VF5) with flexible molecular docking studies.
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