Partitioning of broad-host-range plasmid RP4 is a complex system involving site-specific recombination

Abstract

The broad-host-range plasmid RP4 encodes a highly efficient partitioning system (par) that was previously mapped within the 6.2-kb PstI C fragment. The essential functions were assigned to a region of 2.2 kb between fiwA and IS21 (IS8). On the basis of the nucleotide sequence data of the entire par locus and of in vitro and in vivo expression studies, three distinct loci encoding polypeptides of 9, 18, and 24 kDa were identified. Evidence for the expression of another polypeptide was found. A putative divergent promoter was localized in an intergenic region and is suggested to be responsible for transcription of these genes. It was found that the RP4 par region includes a function resolving plasmid dimers. The 24-kDa polypeptide is considered to function as a resolvase, since its predicted amino acid sequence shows homology to sequences of resolvases of the Tn3 family. Furthermore, palindromes present in the intergenic region containing the divergent promoter resemble repeat structures specific for res sites of Tn3-related transposons. However, it was found that dimer resolution itself was not sufficient for stabilization; additional functions, including the other two polypeptides, seemed to play an important role. These results suggested that RP4 contains a complex stabilization system involving resolution of plasmid dimers during cell division, thus ensuring the delivery of at least one copy to each daughter cell.