Custom B melitensis microarrays were utilized to examine the reg

Custom B. melitensis microarrays were utilized to examine the regulons controlled by VjbR and C12-HSL, revealing a large number of genes potentially involved in the virulence and intracellular survival of the organism. Such genes I-BET151 include adhesins, proteases, lipoproteins, a hemolysin, secretion system components and effector proteins, as well as metabolic genes involved in energy production, amino acid, carbohydrate, and lipid metabolism. Furthermore, deletion of vjbR and C12-HSL treatment altered the expression of genes coding for components involved in the transport of numerous substrates across the cell membrane. The microarray

analyses conducted in this study also confirmed previous findings that fliF and the virB operon are regulated by ΔvjbR and exogenous C12-HSL treatment at an exponential growth phase and stationary growth phase (respectively), as well as the ZD1839 supplier potential effector proteins VceA and VceC, validating the microarray approach to identify additional genes regulated by these putative QS components [14, 27]. The contribution of VjbR gene regulation at different growth phases in not fully understood, but microarray analyses suggests

that there are distinct sets of genes regulated at both growth phases in addition to the MK0683 solubility dmso flagellar and T4SS operons. Previous studies examining the effect of timing on QS related genes in P. aeruginosa hypothesized that the transcriptional regulator and not the inducing or repressing signal is responsible for the continuum of responses observed [40]. Such Myosin a hypothesis is supported by the observed increase of vjbR expression over time in B. melitensis. Deletion of vjbR and treatment of C12-HSL both resulted in a global modulation of gene expression. Examination of the relationship in respect to the genes commonly altered between ΔvjbR and wildtype bacteria administered C12-HSL suggests that C12-HSL reduces VjbR activity, based upon the following observations: 1) An inverse correlation in gene expression for all but three genes found to be altered by VjbR and C12-HSL, 2) Addition of exogenous C12-HSL to growth media mimics the deletion of VjbR

in respect to gene alteration, 3) In the absence of vjbR, C12-HSL treatment has a markedly different effect on gene expression at the stationary growth phase, found to only promote gene expression, and 4) virB repression in response to the addition of C12-HSL is alleviated by deletion of the response receiver domain of VjbR [17]. The observed promotion of gene expression with the treatment of C12-HSL in a ΔvjbR background could potentially be occurring through a second LuxR-like protein BlxR, supported by the high correlation of commonly altered genes by ΔblxR and ΔvjbR with the addition of C12-HSL in independent studies [15, 23]. Often, the LuxR transcriptional regulator and AHL signal form a positive feedback loop, increasing the expression of luxR and the AHL synthesis gene [62].

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