Mechanisms of Antibiotic Resistance Determined by Resistance-Transfer Factors

Abstract

Unowsky, Joel (Northwestern University Medical School, Chicago, Ill.), and Martin Rachmeler . Mechanisms of antibiotic resistance determined by resistance-transfer factors. J. Bacteriol. 92: 358–365. 1966.—This study was concerned with the mechanism of expression of drug resistance carried by resistance-transfer (R) factors of two types: fi ⁻ (negative fertility inhibition) and fi ⁺ (positive fertility inhibition). The levels of drug resistance determined by R factors used in this study were similar to those reported by other investigators. A new finding was that Escherichia coli carrying the fi ⁻ episome was resistant to 150 to 200 μg/ml of streptomycin. The growth kinetics of R factor-containing cells were similar in the presence or absence of streptomycin, chloramphenicol, and tetracycline, but a period of adaptation was necessary before cells began exponential growth in the presence of tetracycline. By use of radioactive antibiotics, it was shown that cells containing the fi ⁻ episome were impermeable to tetracycline and streptomycin, whereas cells containing the fi ⁺ episome were impermeable only to chloramphenicol. Cell-free extracts from fi ⁺ and fi ⁻ cells were sensitive to the antibiotics tested in the polyuridylic acid-stimulated incorporation of phenylalanine into protein.