However, the QS response was more strongly induced by 3-oxo-C9-HSL or 3-oxo-C10-HSL than by 3-oxo-C12-HSL in the MexAB-OprM deletion mutant. These results suggest that the rates of 3-oxo-C9-HSL and 3-oxo-C10-HSL uptake were higher than that of 3-oxo-C12-HSL uptake, or that CHIR98014 supplier 3-oxo-C9-HSL and 3-oxo-C10-HSL clearance rates may be lower than that of 3-oxo-C12-HSL. Alternatively, the binding affinities of 3-oxo-C9-HSL and 3-oxo-C10-HSL to LasR were stronger than that of 3-oxo-C12-HSL. MexAB-OprM plays a role in the efflux of 3-oxo-cn-HSLs in P. aeruginosa It is known that MexAB-OprM is expressed constitutively in wild-type P. aeruginosa, and MexAB-OprM
exports a variety of substrates [10, 16]. P. aeruginosa MexB has high sequence similarity (69.8% amino acid identity and 83.2% similarity) SCH727965 cost with E. coli AcrB. The crystal structure of AcrB has been solved [17, 18]. The efficiency of substrate binding most likely depends on the volume and the side-chain arrangements of the binding pocket [17, 18]. We attempted to model the MexB three-dimensional structure using the crystal structure of AcrB from E. coli by S. Murakami et al. [17, 18]. Phenylalanine residues in the pore domain and hydrophobic amino acid residues in the vestibule domain were assumed
to play important roles in the transport of substrates. To analyze whether a mutation in the pore domain (Phe136Ala) and a mutation in the vestibule domain (Asp681Ala) of MexB are important for extrusion of substrates, the plasmid-borne mexB PLEKHB2 gene was mutagenized to obtain these single-amino-acid substitutions (Figure 2). Western immunoblotting selleck screening library subsequently confirmed that expression of wild-type and mutant MexBs was equivalent (data not shown). lasB transcription was more strongly induced by acyl-HSLs in the strain carrying the MexB Phe136Ala mutation compared to the strain carrying wild-type MexB. On the other hand, lasB expression in response to acyl-HSLs in the MexB Asp681Ala mutant was similar to the lasB expression pattern in the mexB deletion mutant (Figure 2). lasB expression was affected by the mutation of these residues
at positions 136 and 681 in MexB. These results indicate that MexB is necessary to extrude acyl-HSLs. Figure 2 Mutation in the predicted porter domain of MexB affected the selective efflux of aycl-HSLs by MexAB-OprM. P. aeruginosa strains were grown in LB medium with acyl-HSLs, and lasB expression analyses were performed as described in Materials and Methods. Promoter activities are expressed in fluorescence intensities (arbitrary units) depending on amounts of green-fluorescence protein (GFP) derived from PlasB-gfp at emission (490 nm; excitation, 510 nm). The following MexB mutant strains were used: KG7403, KG7503, KG7503 carrying pKTA113 (wild-type MexB), pYT57 (MexB Phe136Ala), and pYT81 (MexB Asp681Ala). The data represent mean values of three independent experiments.
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