cenocepacia J2315, we attempted the construction of single deletion mutants of each rnd gene using the method described by Flannagan et al. [32] (see Methods). The deletion mutagenesis strategy requires expression of the endonuclease I-SceI and allows for the creation of unmarked gene deletions. While attempting to generate the deletion mutants we encountered difficulties selecting recombinant colonies at a high concentration of antibiotics. Similarly we also failed to identify positive colonies having targeted integration of the deletion plasmid. The latter was particularly difficult for our initial attempts to get single deletions

of each of the rnd genes. We reasoned that the flanking regions of the rnd genes, which are cloned into the mutagenesis plasmid pGPI-SceI to mediate targeted integration into the chromosome, Erismodegib purchase share significant sequence identity between different rnd genes throughout the B. cenocepacia genome. Due to these difficulties we concluded that single gene deletions could not

be possible using the I-SceI mutagenesis strategy. To circumvent this problem we generated plasmids CP-690550 manufacturer designed to delete the entire operons encoding the three different efflux systems, as the DNA flanking the operons was selleck chemical not similar between different operons encoding efflux systems. This strategy resulted in the mutant strains D1 (ΔBCAS0591-BCAS0593), D3 (ΔBCAL1672-BCAL1676), and D4 (ΔBCAL2820-BCAL2822). In the case of strain D3, the deletion not only included the rnd operon but also BCAL1672,

encoding a putative TetR regulator. The presence Mannose-binding protein-associated serine protease of the correct deletion in each strain was confirmed by PCR analysis and Southern blot hybridization (data not shown). Effect of deletion of efflux pumps operons on B. cenocepacia J2315 drug resistance To determine if the deletion of the targeted efflux pumps altered susceptibility to antimicrobial agents we exposed the parental strain J2315 and the mutants D1, D3, and D4 to a variety of antimicrobial compounds. Table 1 summarizes the minimum inhibitory concentrations (MICs) of the different compounds tested. The wild-type strain, J2315, demonstrates a high intrinsic level of resistance to a variety of drugs including β-lactams, aminoglycosides, fluoroquinolones, and ethidium bromide. Strain D1 (ΔBCAS0591-BCAS0593) did not show any increased susceptibility as compared to the parental strain J2315. The inability to demonstrate growth inhibition of B. cenocepacia D1 is likely due to functional redundancy as this strain carries genes encoding 15 other RND efflux pumps that could compensate for deletion of the rnd-1 operon. On the other hand, not all the RND efflux pumps seem to share the same drug specificity, and the selected compounds could be extruded from the cell by other transporters of non-RND families.