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%
Chemistry
Potential
100%
Synthesis (Chemical)
100%
Molecular Dynamics Study
100%
Antitubercular Agent
100%
Triclosan
100%
Molecular Dynamics
66%
Minimum Inhibitory Concentration
66%
Assay
33%
Concentration
33%
Antibacterial
33%
Strain
33%
Pharmacological Metabolism
33%
Protein
33%
Biochemistry, Genetics and Molecular Biology
Electric Potential
100%
Synthesis
100%
Docking (Molecular)
100%
Minimum Inhibitory Concentration
66%
Protein
33%
Absorption
33%
Excretion
33%
Antibacterial Activity
33%
Metabolic Pathway
33%
Staphylococcus Aureus
33%
Bacillus Subtilis
33%
Mycobacterium Tuberculosis
33%
In Silico Study
33%
Pharmacology, Toxicology and Pharmaceutical Science
Tuberculostatic Agent
100%
Triclosan
100%
Aromatic Amine
100%
Minimum Inhibitory Concentration
66%
Antibacterial Activity
33%
Protein
33%
Bacillus Subtilis
33%
Staphylococcus Aureus
33%
Mycobacterium Tuberculosis
33%
Antimycobacterial Agent
33%
Medicine and Dentistry
Aromatic Amine
100%
Bacillus Subtilis
33%
Antimycobacterial Agent
33%