Typhimurium (data not shown). Overall, these results confirm that mutating the luxS genomic region can have a significant impact on MicA sRNA levels, consequently affecting the MicA regulated biofilm phenotype, independently of quorum sensing. Figure 5 RT-qPCR analysis of different S . Typhimurium luxS mutants with MicA primers. MicA sRNA expression levels were measured
with RT-qPCR as described in the Methods section. Representative means and standard deviations of three RT-qPCRs are shown. Gene expression is expressed relative to the wildtype SL1344 level. CMPG5602: SL1344 ΔluxS deletion mutant; CMPG5702: SL1344 luxS::KmR insertion mutant; CMPG5630: SL1344 ΔluxS2 deletion Selleck GW786034 mutant. Discussion In several bacteria, biofilm formation capacity has been linked to luxS based quorum sensing, mediated by AI-2 signaling molecules [4–9]. In Salmonella Typhimurium, it was previously reported that a deletion mutant of the AI-2 synthase enzyme luxS has an impaired biofilm formation capacity [10]. However, this phenotype could not be chemically complemented by extracellular addition
of synthetic DPD, nor by https://www.selleckchem.com/products/Temsirolimus.html expressing luxS from a constitutive promoter on a plasmid. On the other hand, introduction of luxS with its native promoter did complement the biofilm phenotype [10]. In this study, we showed that both a luxS::Km insertion mutant and a deletion mutant of the 3′ end of the luxS coding sequence are still able to form LY2606368 a mature biofilm, despite the fact that these strains are unable to form the type-2 quorum sensing signaling molecule AI-2. Adjacent to the luxS coding sequence, a small non-coding RNA molecule named MicA is encoded in the opposite strand [15]. Using MicA depletion and overexpression constructs, respectively, we showed that a tightly balanced MicA concentration is essential for proper biofilm formation in S. Typhimurium. This suggests Paclitaxel research buy that the final impact of MicA regulation on biofilm formation is based on a complex interplay of several of its targets, a fine-tuning process in which timing is also likely to play a role. It is interesting to note that the MicA depletion strain does not completely abolish the biofilm formation capacity. This could be
explained by an incomplete silencing of MicA in this strain or by the fact that other sRNA molecules take over the role of MicA. It is not uncommon that mRNA targets are redundantly regulated by multiple sRNA molecules fine-tuning their expression in a complex way [28, 29]. The fact that deletion of both rpoE or hfq fully inhibited biofilm formation supports the hypothesis that other sRNA molecules are implicated in regulation of biofilm formation. In literature, two MicA targets known to date were previously linked to biofilm formation. An E. coli ompA mutant is unable to form a mature biofilm on plastic substrates [27]. We showed that also in Salmonella Typhimurium, OmpA is involved in biofilm formation as an ompA deletion mutant is unable to form a mature biofilm.