Abstract
BcrR has been identified as a novel regulatory protein of high level bacitracin resistance encoded by the bcrABD operon in Enterococcus faecalis. The N-terminal domain of BcrR has similarity to the helix-turn-helix motif of DNA-binding proteins, and topological modeling predicts that the C-terminal domain contains four transmembrane alpha-helices. These data have led to the hypothesis that BcrR functions as both a membrane-bound sensor and transducer of bacitracin availability to regulate bcrABD expression. To characterize the bcrABD promoter and identify the promoter elements to which BcrR binds, a series of bcrA-lacZ fusions were constructed. A 69-bp region was identified that was essential for bacitracin-dependent bcrA-lacZ expression. Mutations that targeted this region were used to identify two inverted repeat sequences, each with the sequence 5'-GACA(N)(7)TGTC-3', on the bcrABD promoter that were required for bcrA-lacZ expression. To study BcrR binding to this region, we over-produced BcrR with a C-terminal hexa-histidine tag in Escherichia coli membranes, extracted the protein with n-dodecyl-beta-d-maltoside, and subsequently purified it via Ni(2+)-nitrilotriacetic acid and gel filtration chromatography to apparent homogeneity. Purified BcrR was reconstituted into liposomes, and BcrR binding to bcrABD promoter DNA was analyzed using electrophoretic mobility shift assays. Both inverted repeat sequences were required for BcrR binding, both in the presence and absence of bacitracin. These data demonstrate that membrane-bound BcrR binds specifically to the bcrABD promoter, irrespective of bacitracin concentration. We therefore propose that bacitracin-dependent induction of bcrABD expression by BcrR occurs after DNA binding.
Highlights
Regulation of bacitracin resistance in other bacterial genera has been exclusively shown to be via two-component regulatory systems
It has recently been demonstrated that the presence of both the putative bacitracin transporter, BceAB, and the two-component signal transduction pathway, BceRS, are required for activation of bceAB expression in the presence of
These results indicate that the BceAB transporter interacts with the BceRS two-component signal transduction system in some manner that is necessary for bceAB expression [7]
Summary
Bacterial Strains, Plasmids, and Growth Conditions—The bacterial strains and plasmids used in this study are listed in. To construct plasmid pAMBcrR, containing bcrR under the control of its own promoter, primers BcrRpAMf (5Ј-AAATTTCCATGGTCATACAGAATTTCCTGCAC-3Ј) and BcrRpAMr (5Ј-AAATTTGAATTCTTATTTCATTCCCATCTGCTT-3Ј) containing NcoI and EcoRI restriction sites (underlined), respectively, were used to amplify bcrR by PCR using AR01/DGVS genomic DNA as a template. To construct plasmid pAMBcrRHis, containing C-terminal hexa-histidinetagged bcrR under the control of its own promoter, primers BcrRpAMf and BcrRpAMHisr (5Ј-AAATTTGAATTCTTAATGATGATGATGATGATGTTTCATTCCCATCTGCTT3Ј) containing NcoI and EcoRI restriction sites (underlined), respectively, and histidine codons (underlined) were used to amplify bcrR by PCR using AR01/DGVS genomic DNA as a template. The amplicon was digested with NcoI and EcoRI and cloned into pAM401 digested with the same restriction enzymes. These constructs were introduced into E. faecalis strain JH2-2 to create JH2-2pAMBcrR and JH2-2pAMBcrRHis, respectively.
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