The resolvase/invertase domain of the site-specific recombinase TnpX is functional and recognizes a target sequence that resembles the junction of the circular form of the Clostridium perfringens transposon Tn4451.

Tn4451 is a 6.3-kb chloramphenicol resistance transposon from Clostridium perfringens and is found on the conjugative plasmid pIP401. The element undergoes spontaneous excision from multicopy plasmids in Escherichia coli and C. perfringens and conjugative excision from pIP401 in C. perfringens. Tn4451 is excised as a circular molecule which is probably the transposition intermediate. Excision of Tn4451 is dependent upon the site-specific recombinase TnpX, which contains potential motifs associated with both the resolvase/invertase and integrase families of recombinases. Site-directed mutagenesis of conserved amino acid residues within these domains was used to show that the resolvase/invertase domain was essential for TnpX-mediated excision of Tn4451 from multicopy plasmids in E. coli. An analysis of Tn4451 target sites revealed that the transposition process showed target site specificity. The Tn4451 target sequence resembled the junction of the circular form, and insertion occurred at a GA dinucleotide. Tn4451 insertions were flanked by directly repeated GA dinucleotides, and there was also a GA at the junction of the circular form, where the left and right termini of Tn4451 were fused. We propose a model for Tn4451 excision and insertion in which the resolvase/invertase domain of TnpX introduces 2-bp staggered cuts at these GA dinucleotides. Analysis of Tn4451 derivatives with altered GA dinucleotides provided experimental evidence to support the model.