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Article Abstract
Efflux is one of the mechanisms employed by Gram-negative bacteria to become resistant to routinely used antibiotics. The inhibition of efflux by targeting their regulators is a promising strategy to re-sensitize bacterial pathogens to antibiotics. AcrAB-TolC is the main resistance-nodulation-division efflux pump in Enterobacteriaceae. MarA is an AraC/XylS family global regulator that regulates more than 40 genes related to the antimicrobial resistance phenotype, including acrAB. The aim of this work was to understand the role of the N-terminal helix of MarA in the mechanism of DNA binding. An N-terminal deletion of MarA showed that the N-terminal helix is critical for recognition of the functional marboxes. By engineering two double cysteine variants of MarA that form a disulfide bond between the N-terminal helix and the hydrophobic core of one of the helices in direct DNA contact, and combining in vitro electrophoretic mobility assays, in vivo measurements of acrAB transcription using a GFP reporter system, and molecular dynamic simulations, it was shown that the immobilization of the N-terminal helix of MarA prevents binding to DNA. This inhibited conformation seems to be universal for the monomeric members of the AraC/XylS family, as suggested by additional molecular dynamics simulations of the two-domain protein Rob. These results point to the N-terminal helix of the AraC/XylS family monomeric regulators as a promising target for the development of inhibitors.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11633057 | PMC |
| http://dx.doi.org/10.1002/pro.5258 | DOI Listing |
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