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DNA Gyrase as a Target for Quinolones
Angela C. Spencer
,
Siva S. Panda
Chemistry and Biochemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
30
Scopus citations
Overview
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Keyphrases
Antibacterial Agents
16%
Antibiotic Target
16%
Bacterial DNA Gyrase
16%
Bacterial Resistance
16%
Broad-spectrum Antimicrobials
16%
Cell Concentration
16%
Cellular Interactions
16%
Chromosomal mutations
16%
Clinically Significant
33%
DNA Gyrase
100%
DNA Substrates
16%
Drug Metabolism
16%
Drug Resistance
16%
Enzyme Targets
16%
First-line Drugs
16%
Negative Supercoiling
16%
New Antibacterials
16%
Plasmid Genes
16%
Quinolone Antibiotics
33%
Quinolone Resistance
16%
Quinolones
100%
Reduced Toxicity
16%
Structural Coupling
16%
Synthetic Strategies
16%
Topoisomerase II
16%
Pharmacology, Toxicology and Pharmaceutical Science
Antiinfective Agent
40%
Bacterial DNA
20%
DNA Topoisomerase (ATP Hydrolysing)
100%
Drug Metabolism
20%
Drug Resistance
20%
Infection
20%
Quinoline Derived Antiinfective Agent
40%
Quinolone
60%
Quinolone Derivative
100%
Biochemistry, Genetics and Molecular Biology
Antibiotic Resistance
25%
DNA Gyrase
100%
Drug Metabolism
25%
Drug Resistance
25%
Enzyme
25%
Plasmid
25%
Type II Topoisomerase
25%