Comparison of the structure-activity relationships of the integron-associated recombination sites attI3 and attI1 reveals common features.

Incorporation of gene cassettes into integrons occurs by IntI-mediated site-specific recombination between a 59-base element (59-be) site in the cassette and an attI site in the integron. While the 59-be sites share common features and are recognized by several different IntI recombinases, the sequences of attI sites are not obviously related and are preferentially recognized by the cognate IntI. To determine the features of attI sites that are required for recombination proficiency, the structure-activity relationships of a second attI site, the attI3 site from the class 3 integron, were examined. The attI3 site was confined to within a region consisting of 68 bp from the integron backbone and 15 bp from the adjacent cassette. This region includes four IntI3-binding sites, as assessed by gel shift and methylation interference studies. Two of the binding sites are inversely oriented and constitute a simple site that includes the recombination crossover point. The two additional binding sites appear to be directly oriented and one of them is essential for efficient recombination of the attI3 site with a 59-be, but not for recombination with a second full-length attI3 site, which occurs at 100-fold lower frequency. The fourth site enhances attI3 with 59-be recombination 10-fold. The finding that the organization and overall properties of attI3 are very similar to those of attI1 indicates that these features are likely to be common to all attI sites.

Integron-encoded IntI integrases preferentially recognize the adjacent cognate attI site in recombination with a 59-be site.

Integrons have the capacity to capture small mobile elements known as gene cassettes, and this reaction is catalysed by integron-encoded IntI integrases. IntI integrases form a distinct family within the tyrosine recombinase superfamily and include a characteristic additional domain that is well conserved. Two different IntI enzymes were used to examine their ability to recognize heterologous attI sites in both integration and excision assays. IntI1 and IntI3 are 59% identical and catalyse both integrative and excisive recombination between a cassette-associated 59-be site and the cognate attI1 or attI3 site. Integrative recombination events involving a 59-be and a non-cognate attI site, attI2 and attI3 for IntI1 or attI1 and attI2 for IntI3, were detected extremely rarely. In cassette excision assays, the non-cognate attI3 site was recognized by IntI1, but attI1 was not well recognized by IntI3. The purified IntI1 and IntI3 proteins bound strongly only to their cognate attI site.

Class 1 integron containing a new gene cassette, aadA10, associated with Tn1404 from R151.

The carbenicillin, gentamicin, kanamycin, streptomycin, spectinomycin, sulfonamide, and tobramycin resistance determinants found on Pseudomonas aeruginosa plasmid R151 have previously been shown to translocate to another plasmid, R388, and it was inferred that a transposon, Tn1404, carried the resistance determinants. Sequencing of the cassette array from the plasmid known as R388::Tn1404 revealed two known gene cassettes, oxa10 and aadB, and a previously unidentified cassette determining resistance to streptomycin and spectinomycin, here designated aadA10, in the order oxa10-aadB-aadA10. These cassettes replaced the dfrB2-orfA cassette array of R388, indicating that movement of the resistance determinants from R151 to R388 resulted from recombinational exchange between two class 1 integrons rather than transposition. The AadA10 protein is most closely related to AadA6 (85% identical) and AadA7 (80% identical). The aadA10 cassette found here has only a simple site containing a 7-bp spacer derived from attI1 in place of a 59-base element and is likely to represent a derivative of the complete cassette. IntI1-mediated deletion of the aadA10 cassette was not detected, indicating that this single simple site is either inactive or only weakly active.

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

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 P(c) 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.

Definition of the attI1 site of class 1 integrons.

Integron-encoded integrases recognize two distinct types of recombination site: attI sites, found in integrons, and members of the 59-base element (59-be) family, found in the integron-associated gene cassettes. The class 1 integron integrase, IntI1, catalyses recombination between attI1 and a 59-be, two 59-be, or two attI1 sites, but events involving two attI1 sites are less efficient than the reactions in which a 59-be participates. The full attI1 site is required for high-efficiency recombination with a 59-be site. It is 65 bp in length and includes a simple site, consisting of a pair of inversely oriented IntI1-binding domains, together with two further directly oriented IntI1-binding sites designated strong and weak. However, a smaller region that contains only the simple site is sufficient to support a lower level of recombination with a complete attI1 partner and the features that determine the orientation of attI1 reside within this region. An unusual reaction between the attI1 site and a 59-be appears to be responsible for the loss of the central region of a 59-be to create a potential fusion of two adjacent gene cassettes.