Abstract
Pulse labeling studies with Bacillus subtilis showed that DuP 721 inhibited protein synthesis. The IC50 of DuP 721 for protein synthesis was 0.25 micrograms/ml but it was greater than 32 micrograms/ml for RNA and DNA synthesis. In cell-free systems, DuP 721 concentrations up to 100 microM did not inhibit peptide chain elongation reactions under conditions where chloramphenicol, tetracycline and hygromycin B inhibited these reactions. Furthermore, Dup 721 did not cause phenotypic suppression of nonsense mutations suggesting that DuP 721 did not inhibit peptide chain termination. Thus, the mechanism of action of DuP 721 is at a target preceeding chain elongation.
MeSH terms
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Anti-Bacterial Agents / pharmacology
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Bacillus subtilis / drug effects*
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Bacillus subtilis / genetics
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Bacterial Proteins / biosynthesis*
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Chloramphenicol / pharmacology
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DNA, Bacterial / biosynthesis
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Drug Resistance, Microbial / genetics
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Hygromycin B / pharmacology
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Microbial Sensitivity Tests
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Mutation
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Oxazoles / pharmacology*
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Oxazolidinones
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Peptide Chain Elongation, Translational / drug effects
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RNA, Bacterial / biosynthesis
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Streptomycin / pharmacology
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Tetracycline / pharmacology
Substances
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Anti-Bacterial Agents
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Bacterial Proteins
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DNA, Bacterial
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Oxazoles
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Oxazolidinones
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RNA, Bacterial
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4-acetylphenyloxooxazolidinylmethylacetamide
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Hygromycin B
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Chloramphenicol
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Tetracycline
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Streptomycin