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Abstract
Among the syntheses of DNA, RNA and protein in Escherichia coli cells, the DNA synthesis was found to be preferentially inhibited at lower concentrations of showdomycin. At such lower concentrations of this antibiotic, serious decreases in the synthesis of deoxycytidine phosphates and in de novo synthesis of deoxythymidine phosphates were found in parallel with the decrease in the synthesis of DNA, although the syntheses of other pyrimidine nucleotides were not significantly diminished. The salvage synthesis of deoxythymidine phosphates was very resistant to this antibiotic. The inhibitory action of this antibiotic on DNA synthesis could be reversed by the concomitant addition of a thiol compound or a nucleoside. When a nucleoside was added after the completion of the inhibition by showdomycin, the recovery of the DNA synthesis from the inhibition was detected only after the recovery of the syntheses of pyrimidine ribotides, pyrimidine deoxyribotides and RNA have become distinct.