Abstract
Growth of Escherichia coli in a nutrient medium was inhibited by 100 μg/ml of clazamycin and at this concentration, the viable cell number decreases slowly. Elongated cells were observed in the treated cultures. The bactericidal activity was abolished by high concentrations of either sucrose or sorbitol but not by chloramphenicol. Non-growing cells suspended in a medium devoid of both carbon and nitrogen sources were killed by clazamycin more rapidly than cells in a rich medium. Incorporation of radioactive thymidine, uridine, leucine and N-acetylglucosamine into cellular macromolecules was inhibited to a similar extent. Permeability of N-acetylglucosamine and leucine was blocked by clazamycin. On the other hand, membrane transport of thymidine was only slightly inhibited. Thymidine-derived radioactivity accumulated as dTTP in the cells suggesting that DNA synthesis was blocked at the polymerization step. DNA synthesis in toluene-treated cells was also sensitive to clazamycin while the repair DNA synthesis induced by bleomycin in these cells was not. DNA-repair deficient mutants of E. coli were as sensitive to clazamycin as their DNA-repair proficient counterparts.
