Characterization of the class 3 integron and the site-specific recombination system it determines

Christina M. Collis, Mi Jurng Kim, Sally R. Partridge, H. W. Stokes, Ruth M. Hall*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

97 Citations (Scopus)


Integrons capture gene cassettes by using a site-specific recombination mechanism. As only one class of integron and integron-determined site-specific recombination system has been studied in detail, the properties of a second class, the only known class 3 integron, were examined. The configuration of the three potentially definitive features of integrons, the intI3 gene, the adjacent attI3 recombination site, and the Pc promoter that directs transcription of the cassettes, was similar to that found in the corresponding region (5′ conserved segment) of class 1 integrons. The integron features are flanked by a copy of the terminal inverted repeat, IRi, from class 1 integrons on one side and a resolvase-encoding tniR gene on the other, suggesting that they are part of a transposable element related to Tn402 but with the integron module in the opposite orientation. The IntI3 integrase was active and able to recognize and recombine both known types of IntI-specific recombination sites, the attI3 site in the integron, and different cassette-associated 59-be (59-base element) sites. Both integration of circularized cassettes into the attI3 site and excision of integrated cassettes were also catalyzed by IntI3. The attI3 site was localized to a short region adjacent to the intI3 gene. Recombination between a 59-be and secondary sites was also catalyzed by IntI3, but at frequencies significantly lower than observed with IntI1, the class 1 integron integrase.

Original languageEnglish
Pages (from-to)3017-3026
Number of pages10
JournalJournal of Bacteriology
Issue number11
Publication statusPublished - 2002


Dive into the research topics of 'Characterization of the class 3 integron and the site-specific recombination system it determines'. Together they form a unique fingerprint.

Cite this