In vivo cleavage of Escherichia coli BIME-2 repeats by DNA gyrase: genetic characterization of the target and identification of the cut site

The Escherichia coli chromosome contains about 300 bacterial interspersed mosaic elements (BIMEs), These elements, located at the 3' end of genes, are composed of three types of alternating repetitive extragenic palindromes (REPs). Based on the type of REP they contain and on their ability to interact with the integration host factor (IHF), BIMEs are subdivided into two families: BIME-1 elements contain an IHF binding site flanked by converging Y and Z1 REPs, whereas BIME-2 elements contain a variable number of alternating Y and Z2 REPs without an IHF site, Although some BIMEs have been implicated in the protection of mRNA against 3' exonucleolytic degradation, the main role of elements belonging to both families remains to be elucidated, In this paper, we used oxolinic acid, a drug that reveals potential sites of DNA gyrase action, to demonstrate that DNA gyrase interacts in vivo with BIME-5 elements, The frequency of cleavage varied from one element to another, and the cleavage pattern observed in elements containing several REPs indicated that DNA gyrase cut DNA every two REPs, A single cleavage site has been identified in the Y REP in six out of seven instances, and the nucleotide sequence of a 44 bp fragment containing the scission point displayed conserved residues at six positions. The lack of one of the conserved residues accounted for the absence of cleavage in most of the 22 REPs. Our results also showed that cleaved REPs were always associated with another REP, suggesting that a pair of diverging REPs constitutes the target of DNA gyrase. DNA gyrase cleavage at repetitive BIME-2 elements may have consequences for DNA topology and genomic rearrangements.