The methicillin resistance gene mecD has been recently identified on chromosomal islands in Macrococcus caseolyticus (McRImecD ). The 5' end of McRImecD carries an integrase (int) of the tyrosine recombinase family and two genes (intR and xis) encoding putative DNA-binding proteins. The islands are integrated site-specifically at the 3' end of the rpsI gene, a highly conserved locus in Gram-positive bacteria. Moreover, the rpsI gene of some Staphylococcus and Bacillus strains was found to be followed by a related integrase, raising the question of whether McRImecD could be transferred to these species. We used circular model elements carrying 5' end fragments of McRImecD -1 to demonstrate that the int enzyme and the attachment (att) site were sufficient to mediate site-specific DNA integration into the rpsI locus of Staphylococcus aureus, Staphylococcus pseudintermedius and Bacillus thuringiensis in vivo. Including xis in the model element stimulated both integrative and excisive recombination reactions and influenced the Int enzyme in att site selection. The intR gene functions as a negative regulator of int and xis. The int-xis genes of McRImecD -1 encode a site-specific recombination function that enables the acquisition of McRImecD in new hosts and the potential dissemination of broad-spectrum β-lactam resistance across genus barriers.