Filled blue squares represent the relative

Filled blue squares represent the relative expression Protein Tyrosine Kinase inhibitor of vjbR and the open light blue squares represent the OD600 of corresponding cultures. The exponential growth stage for microarray analysis corresponds to OD600 = 0.4 (14 hrs) and the stationary growth phase corresponds to OD600

= 1.5 (28 hrs). VjbR and C12-HSL alter expression of a common set of genes To examine the relationship between VjbR and C12-HSL gene regulation, the significantly altered genes from the VjbR regulon were compared to the significantly altered genes from the C12-HSL regulon (Tables 2, 3, 4 and Additional File 3, Table S3). In all, 72 genes were found to be co-regulated during the exponential growth phase and 55 genes at the stationary growth phase, representing approximately 20% of the total number of altered genes identified by microarray analysis. The majority of the common, differently expressed transcripts (124 out of 127) were found to be altered in the same direction by both the vjbR mutant and in response to C12-HSL administration, implying that VjbR and C12-HSL exert inverse effects on gene expression. In addition to the T4SS and flagella operons being inversely co-regulated, T4SS-dependent effector proteins VceA and VceC were also found to be inversely regulated by the vjbR deletion mutant and addition of C12-HSL to

wildtype cells, as well as exopolysaccharide production, proteases, peptidases and a universal stress protein (Table 4). Flagellar and exopolysaccharide selleck compound synthesis genes have (-)-p-Bromotetramisole Oxalate been implicated in the Y-27632 solubility dmso intracellular survival of Brucella in mice and macrophages [4, 41]. The down-regulation of these factors in vjbR mutants and in response to C12-HSL suggests that VjbR promotes Brucella virulence; while conversely, C12-HSL represses such gene expression, either through the same regulatory pathway or independently. These results expand on earlier findings that C12-HSL represses transcription of the T4SS through interactions with the response domain of VjbR [17, 42]. The genes identified as co-regulated between VjbR and C12-HSL may be

the result of C12-HSL reducing VjbR transcriptional activity through the AHL binding domain. Additionally, the observation that the expression of vjbR itself was down-regulated at the stationary growth phase in response to C12-HSL administration further supports a non-cooperative relationship between VjbR and C12-HSL, (2.9-fold by qRT-PCR and 1.2-fold by microarray analysis, Table 1). Physiological characterization of VjbR and C12-HSL transcriptomes Virulence. Microarray results confirmed alteration of the previously identified T4SS and flagellar genes, both virulence-associated operons found to be regulated by VjbR and/or C12-HSL, as well as genes with homology to the recently identified T4SS effector proteins in B. abortus and B. suis [14, 27]. Furthermore, many putative virulence factors not previously correlated with VjbR or C12-HSL regulation in Brucella spp.

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