They were finally prepared by critical-point drying, mounted on an aluminum stub and covered with a thin layer of gold
(20–30 nm). Examinations were carried out using a scanning electron microscope (XL-20; Philips, Eindhoven, the Netherlands) at the Unité Interfacultaire de Microscopie Electronique (University of Namur, Belgium). Recently, a bioinformatic screen of Brucella genomes was carried out to find AHL-acylase homolog(s). One gene encoding a protein with 3-deazaneplanocin A price 24.8% identity to AiiD, the AHL-acylase from Ralstonia sp. strain XJ12B, was identified and called aiiD (Lin et al., 2003). It has been shown that AiiD from Brucella is a functionally secreted Quorum-Quenching enzyme displaying a broad-range AHL-acylase activity (J. Lemaire, unpublished data). We observed that a B. melitensis 16M strain (MG210) overexpressing aiiD exhibits a strong clumping phenotype in liquid culture. As the MG210 strain reached a high density in broth culture, bacteria aggregated and
formed a pellicle-like structure that settled to the bottom of the culture tube. A similar phenotype was already described in B. melitensis vjbR-defective strains unresponsive to AHL (Uzureau et al., 2007). Because in these QS mutants, the clumps contain exopolysaccharide labeled by the Concanavalin A (ConA) Navitoclax cost lectin (Uzureau et al., 2007), which is specific for α-mannopyranosyl and α-glucopyranosyl residues (Naismith & Field, 1996), we wondered whether the strain MG210 could produce a similar exopolysaccharide. To this end, we attempted to label exopolysaccharide using ConA-FITC. Propidium iodide was used to counterstain bacteria in red. As shown in Fig. 1, strain MG210 produced a ConA-FITC-labeled matrix not observed in the wild-type strain. This result shows that the MG210 aiiD-overexpressing strain is also able to produce exopolysaccharide containing α-mannopyranosyl and/or α-glucopyranosyl residues, like B. melitensis vjbR-defective alleles did (Uzureau et al., 2007). Although
all Bay 11-7085 these QS mutants display a similar phenotype, the MG210 strain formed larger and more stable clumps than the previously described strains. Thus, we focused our further characterization on the clumping phenotype of this MG210 strain. We were interested in solving the nature of B. melitensis exopolysaccharide(s). Exopolysaccharide was extracted from MG210 cultures as described in Materials and methods. We first tested the purity of the exopolysaccharide preparation. To this end, we carried out a dot-blot analysis using specific MAbs (Cloeckaert et al., 1990) to compare the abundance of the lipopolysaccharide O-chain and two outer membrane proteins (OMPs) described on the OMVs formed by Brucella (Omp25 and Omp31) (Gamazo & Moriyon, 1987; Boigegrain et al., 2004) in exopolysaccharide samples taken before the first dialysis step in the phenol phase of the lipopolysaccharide removal step and in the final exopolysaccharide sample.