Characterization of an R-plasmid associated with ampicillin resistance in Shigella dysenteriae type 1 isolated from epidemics.

Ampicillin-resistant strains of Shigella dysenteriae type 1 isolated in epidemics in Mexico, Central America, and Bangla Desh were examined for the presence of plasmid deoxyribonucleic acid (DNA) by gel electrophoresis. All strains contained a heterogeneous population of plasmids. Transfer experiments to Escherichia coli K-12 indicated that the ampicillin resistance determinant (Ap(r)) was located on a 5.5-megadalton (Mdal) plasmid identical in all Shiga strains examined, as judged by DNA hybridization and by its molecular properties. This 5.5-Mdal plasmid contained the ampicillin transposon (TnA) sequences. There was not a high degree of homology between the Shiga Ap(r) plasmid DNA and DNA obtained from Ap(r)Salmonella typhi strains isolated from typhoid epidemics in Mexico, previous to the dysentery outbreaks. Although low, the degree of reassociation observed indicated that probably part of the TnA sequence was present in S. typhi DNA. The DNA hybridization experiments showed, in addition, that there was a high degree of homology among Ap(r) plasmids isolated from different enterobacteria, and this identity was confirmed by restriction endonuclease activity. These results together with their similarities in molecular and replicative properties indicate that the Ap(r) plasmids, as was suggested for the Sm(r) Su(r) plasmids, possibly evolved once and then epidemiologically spread in the Enterobacteriaceae.

Mode of replication of the conjugative R-plasmid RSF1040 in Escherichia coli.

Replicating deoxyribonucleic acid (DNA) molecules of plasmid RSF1040, a deletion mutant of the conjugative R plasmid R6K, appear in the electron microscope as partially supercoiled structures with two open circular branches of equal size, although open structures with three branches, two branching points and no supercoiled regions (theta structures) were also found at a lower frequency. The partially supercoiled molecules sediment more rapidly than native covalently closed circular DNA in neutral sucrose gradients and band at a position intermediate between covalently closed circular and open circular DNA in CsClethidium bromide gradients. Electron microscope measurements of the linear EcoRI-treated replicative intermediates indicate that replication can be initiated at two sites (origins) on the plasmid DNA molecule located at about 23% (alpha) and 39% (beta) of the total genome length from an EcoRI end designated arbitrarily as the "left-hand" end of the molecule. The overall replication of RSF1040 is asymmetrically bidirectional. Replication from the alpha origin proceeds first to the "right" to a unique termination site located some 55% of the total genome length from the left-hand end of the molecule. At this point replication proceeds from the alpha origin to the "left" (i.e., opposite to the original direction of replication) until replication of the molecule is completed. Replication also proceeds from the beta origin asymmetrically to the unique terminus site.

Two replication initiation sites on R-plasmid DNA.

Replicating DNA molecules of a deletion mutant of the conjugative R-plasmid R 6 K are cleaved at a single site by the EcoRI restriction endonuclease. Electron microscope examination and measurements of the EcoRI treated replicative intermediate molecules indicate that replication can be initiated at two sites on the plasmid DNA molecule. The two sites are located at about 23 and 39% of total length, respectively, from the EcoRI cleavage site. About 5% of the replicating molecules use both replication initiation sites simultaneously.

Nature of R-factor replication in the presence of chloramphenicol.

Covalently closed circular deoxyribonucleic acid molecules of RSF1030, a nonconjugative R-factor, initiate and complete rounds of semiconservative replication in the absence of protein synthesis long after the bacterial chromosome has ceased its replication. RSF1030 replication under these conditions is sensitive to the inhibitor of ribonucleic acid synthesis, rifampicin. The product of this replication, a covalently closed DNA molecule, shows, in contrast to those molecules produced during the replication in a logarithmically growing culture of Escherichia coli, a transition to the open circular form upon treatment with ribonucleases of alkali. Analysis of the product resulting from alkali treatment indicates that there is a single break in one strand of the original circular duplex. This alkali-sensitive site occurs with equal probability in either of the complementary strands. These results are interpreted as a requirement for an RNA primer for the initiation of RSF1030 DNA synthesis and as showing that its removal from the covalently closed molecule is inhibited in the absence of protein synthesis.