Keyphrases
Mycobacterium Tuberculosis (M. tb)
100%
Structure-activity Relationship
16%
Tuberculosis
14%
Pks13
13%
Antitubercular
9%
Benzofuran
9%
Seliciclib
9%
MmpL3
9%
Thioesterase Domain
9%
Mechanism of Action
9%
Mode of Action
9%
Resistant Strains
8%
Antitubercular Activity
8%
Tuberculosis Drugs
8%
Allosteric Site
8%
Phenotypic Screening
7%
Mercapto
6%
Targeted Agents
6%
Synergistic Inhibition
6%
ErbB Signaling
6%
Cytotoxicity Profile
6%
Spirocycles
6%
MmpL3 Inhibitor
6%
Prolyl-tRNA
6%
CorA
6%
Peptidyl-tRNA Hydrolase
6%
Tryptophan Metabolism
6%
Relationship Mechanism
6%
Type II NADH Dehydrogenase
6%
Absorption Mechanism
6%
LysR Family
6%
InhA
6%
Combined Treatment
6%
Absorption Distribution
6%
Functional Complexity
6%
Functional Groups
6%
Mode of Activity
6%
Indole
6%
Carboxamide
6%
Thioesterase
6%
Morpholino
6%
Gene Profile
6%
Synthetase
6%
MCF-7
6%
Metabolism
6%
Quinolones
6%
Preclinical Candidate
6%
Estrogen
6%
Cysteine
6%
Sulfonamides
6%
Pharmacology, Toxicology and Pharmaceutical Science
Mycobacterium Tuberculosis
80%
Structure Activity Relationship
17%
Carboxamide
13%
Cytotoxicity
11%
Oxidoreductase
10%
Roscovitine
10%
Infection
10%
Antitubercular Activity
8%
Hexachlorophene
7%
Functional Groups
6%
Lysine Transfer RNA Ligase
6%
Infectious Agent
6%
Quinazolinone Derivative
6%
Proline
6%
Glutamic Acid
6%
Sulfonamide
6%
Cysteine
6%
Ion Channel
6%
Indole
6%
Drug Metabolism
6%
Indazole Derivative
6%
Thiol Ester Hydrolase
6%
Tryptophan
6%
Inosinate Dehydrogenase
6%
Polyketide Synthase
6%
Synthetase
6%
Breast Cancer
6%
Cancer Model
6%
Protein Kinase B
6%
Lead Compound
5%
Pharmacokinetics
5%
Biochemistry, Genetics and Molecular Biology
Mycobacterium Tuberculosis
41%
Coenzyme A
10%
Oxidoreductase
10%
Dehydrogenase
6%
Sulfonamide
6%
Homeostasis
6%
Allosteric Site
6%
Hydrolase
6%
Morpholino
6%
Inosinic Acid
6%
Cell Cycle
6%
Cysteine
6%
Transfer RNA
6%
Cancer Model
6%
Protein Kinase B
6%
Anabolism
6%
Infectious Agent
6%
