Furthermore, Zotta et al. (2009) have shown the involvement of the HrcA and CtsR proteins in the heat stress response of S. thermophilus Sfi39 [8]. Apart from these data, little is known about the network of regulation controlling S. thermophilus adaptation to temperature changes. Among bacterial transcriptional click here regulators is the wide conserved family of Rgg regulators encoded by genes, exclusively found in the order of Lactobacillales and the family Listeriaceae [9]. Rgg regulators act by binding to the promoter region of their
target genes [10–13]. At their N-terminal end, they carry a Helix-Turn-Helix (HTH) XRE DNA-binding domain demonstrated to be important for their activity as transcriptional regulators [14]. They are positive regulator [15, 16] or act both as activator and repressor [17, 18]. Most of the Rgg regulators control the transcription of their neighboring genes [9, 16, Selleck Quisinostat 19, 20]. However, Rgg from S. pyogenes NZ131, S. agalactiae NEM316 or S. suis SS2 are considered as global regulators since controlling highly diverse genes scattered on the genome [12, 13, 21, 22]. In these cases,
Rgg proteins are involved in a network of regulation and modulate the expression of other transcriptional regulators, including several two-component regulatory systems, which are important in the transcriptional response to changing environments [12, 13, 21]. Several Rgg proteins contribute to bacterial stress response. For instance, the Rgg protein of Lactocccus lactis, also known as GadR, is Sotrastaurin associated with glutamate-dependent acid tolerance [15]. Within Streptococcus, several Rgg proteins have been involved in oxidative- and/or to thermal-stress responses [23–25]. The high number of rgg genes observed in the genomes of S. thermophilus strains (7 in strains LMG18311 and CNRZ1066, 6 in LMD-9 and 5 in ND03) [26–28] suggests that their acquisition and their preservation are advantageous for S. thermophilus. However, the involvement of these genes in S. thermophilus LMG18311 Fenbendazole stress response is still hypothetic and none of the 7 rgg genes of LMG18311 has been studied at the molecular level. To determine
whether any of the rgg genes of S. thermophilus LMG18311 are involved in adaptation to changes in environmental conditions, Δrgg deletion mutant was constructed and its tolerance to different stresses was tested. In this study, we demonstrate that (i) the transcription of rgg 0182 gene from S. thermophilus LMG18311 is influenced by culture medium and growth temperature, (ii) Rgg0182 is a transcriptional regulator that modulate not only the transcription of its proximal target genes but is also involved in the network of regulation of the transcription of genes coding chaperones and proteases, (iii) this gene is involved in heat shock response. Results Analysis of the rgg 0182 locus The rgg 0182 gene corresponds to the stu0182 gene of the complete genome sequence of S. thermophilus LMG18311 [26].