Synthesis, evaluation, molecular docking, and molecular dynamics studies of novel N-(4-[pyridin-2-yloxy]benzyl)arylamine derivatives as potential antitubercular agents

INIS

• evaluation 100%
• concentration 100%
• synthesis 100%
• molecular dynamics method 100%
• comparative evaluations 66%
• interactions 66%
• values 66%
• in vitro 33%
• proteins 33%
• range 33%
• distribution 33%
• strains 33%
• absorption 33%
• stability 33%
• incubation 33%
• bacillus subtilis 33%
• metabolism 33%
• staphylococcus 33%
• simulation 33%
• excretion 33%
• mycobacterium tuberculosis 33%
• residues 33%

Biochemistry, Genetics and Molecular Biology

• Dynamics 100%
• Docking (Molecular) 100%
• Minimum Inhibitory Concentration 100%
• Absorption 50%
• Metabolic Pathway 50%
• In Silico Study 50%
• Antibacterial Activity 50%
• Staphylococcus Aureus 50%
• Mycobacterium Tuberculosis 50%
• Bacillus Subtilis 50%
• Computer Simulation 50%

Pharmacology, Toxicology and Pharmaceutical Science

• Tuberculostatic Agent 100%
• Triclosan 100%
• Aromatic Amine 100%
• Minimum Inhibitory Concentration 66%
• Antibacterial Activity 33%
• Antimycobacterial Agent 33%
• Bacillus Subtilis 33%
• Staphylococcus Aureus 33%
• Mycobacterium Tuberculosis 33%