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Molecular Dynamic Simulations and Molecular Docking as a Potential Way for Designed New Inhibitor Drug without Resistance.

Jafar Aghajani, Poopak Farnia, Parissa Farnia, Jalaledin Ghanavi, Ali Akbar Velayati

2022PubMed22 citationsOpen Access PDF

Abstract

is the cause of tuberculosis in humans and is responsible for more than 2 million deaths per year. Despite the development of anti-tuberculosis drugs (Isoniazid, Rifampicin, Ethambutol, pyrazinamide, streptomycin, etc.) and the TB vaccine, this disease has claimed the lives of many people around the world. Drug resistance in this disease is increasing day by day. Conventional methods for discovering and developing drugs are usually time-consuming and expensive. Therefore, a better method is needed to identify, design, and manufacture TB drugs without drug resistance. Bioinformatics applications in obtaining new drugs at the structural level include studies of the mechanism of drug resistance, detection of drug interactions, and prediction of mutant protein structure. In the present study, computer-based approaches including molecular dynamics simulation and molecular docking as a novel and efficient method for the identification and investigation of new cases as well as the investigation of mutated proteins and compounds will be examined .

Topics & Concepts

EthambutolRifampicinPyrazinamideMycobacterium tuberculosisIsoniazidDrugDrug resistanceTuberculosisDocking (animal)Computational biologyStreptomycinIn silicoPharmacologyMedicineBiologyAntibioticsGeneticsGenePathologyNursingComputational Drug Discovery MethodsProtein Structure and DynamicsTuberculosis Research and Epidemiology
Molecular Dynamic Simulations and Molecular Docking as a Potential Way for Designed New Inhibitor Drug without Resistance. | Litcius