Tn1525, a kanamycin R determinant flanked by two direct copies of IS15.

We have isolated plasmid pIP112 (IncI1) from Salmonella panama and characterized by restriction endonucleases analysis and by recombinant DNA techniques a transposable element designated Tn1525. This 4.44 kilobase (kb) transposon confers resistance to kanamycin by synthesis of an aminoglycoside phosphotransferase (3') (5") type I and contains two copies of IS15 (1.5 kb) in direct orientation. The modular organisation of Tn1525 offers the possibility for intramolecular homologous recombination between the two terminal direct repeats and thus accounts for the in vivo structural lability of plasmid pIP112: instability of kanamycin resistance and tandem amplification of the kanamycin determinant. Other transposons mediating resistance to kanamycin by the same enzymatic mechanism were analysed by agarose and polyacrylamide gel electrophoresis, following digestion with restriction endonucleases, and by Southern hybridizations. These comparisons indicate that, although the structural genes for the phosphotransferases are homologous, Tn1525 differs from Tn903 and Tn2350 and is closely related but distinct from Tn6. Using the same techniques Tn1525 was detected on plasmids belonging to different incompatibility groups and originating from various species of Gram-negative clinical isolates. These results indicate that Tn1525 is representative of a new family of class I composite transposons already spread in diverse pathogenic bacterial genera.

Transposition of a tetracycline-resistance determinant (Tn1523) and cointegration events mediated by the pIP231 plasmid in Escherichia coli.

A 10.8-kb transposable DNA sequence conferring resistance to tetracycline resides on the IncY Escherichia coli plasmid pIP231. This sequence, designated Tn1523, was shown to insert into different sites of the replicons of the IncY prophage P1Cm c1.100 and the IncI1 plasmid pIP112. This process is not dependent on the host recombination system recA. Genetic results indicate that Tn1523 transposition involves the formation of a cointegrate intermediate, either between pIP231 and P1Cm c1.100, or between pIP231 and pIP112. These intermediates were found to be resolved into donor and recipient plasmids, each harboring a copy of the Tn1523 transposon. A stable structure formed by fusion of the pIP231 plasmid with the pIP112 plasmid was also observed. This event occurs in the absence of the bacterial recA gene product and seems to involve a site-specific reciprocal recombination between "IS-like" elements.

Curing of P1 prophage from Escherichia coli K-12 recA(P1) lysogens superinfected with P1 bacteriophage.

Curing of the P1 plasmid prophage in recA(P1) lysogens by superinfection with another P1 phage was specific and independent of immunity and incompatibility expression.