Abstract
The molecular nature of R-factor deoxyribonucleic acid (DNA) was examined in Escherichia coli by using a method for the specific labeling of the derepressed R factor, R1, in a female cell after conjugation. Sixty minutes after mating, the R factor was isolated as a single molecule with a molecular weight of 65 x 10(6) daltons. This single molecular species sedimented as either a covalently closed molecule or a "nicked" circle. When the single R-factor component was centrifuged in a CsCl density gradient, only a single homogeneous species with a buoyant density of 1.711 g/cm(3) was observed. R-factor DNA was also isolated directly from exponentially growing cells of E. coli as a covalently closed single molecular species comprising about 1% of the total cellular DNA. Previous studies in Proteus show that R1 factor DNA components of buoyant density 1.709, 1.711, and 1.716 g/cm(3) can be identified as distinct replicons. It is suggested that the single molecule of R1 observed in E. coli is most simply explained as a composite structure resulting from a recombinational assemblage of a 1.709 and 1.716 g/cm(3) replicon.
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