par Mirabella, Aurélie;Yanez Villanueva, Rosse Mary 
;Delrue, Rose-May;Uzureau, Sophie ;Zygmunt, Michel S;Cloeckaert, Axel;De Bolle, Xavier;Letesson, Jean-Jacques
Référence Microbiology, 158, Pt 10, page (2642-2651)
Publication Publié, 2012-10
;Delrue, Rose-May;Uzureau, Sophie ;Zygmunt, Michel S;Cloeckaert, Axel;De Bolle, Xavier;Letesson, Jean-JacquesRéférence Microbiology, 158, Pt 10, page (2642-2651)
Publication Publié, 2012-10
Article révisé par les pairs
| Résumé : | Bacterial adaptation to environmental conditions is essential to ensure maximal fitness in the face of several stresses. In this context, two-component systems (TCSs) represent a predominant signal transduction mechanism, allowing an appropriate response to be mounted when a stimulus is sensed. As facultative intracellular pathogens, Brucella spp. face various environmental conditions, and an adequate response is required for a successful infection process. Recently, bioinformatic analysis of Brucella genomes predicted a set of 15 bona fide TCS pairs, among which some have been previously investigated. In this report, we characterized a new TCS locus called prlS/R, for probable proline sensor-regulator. It encodes a hybrid histidine kinase (PrlS) with an unusual Na(+)/solute symporter N-terminal domain and a transcriptional regulator (belonging to the LuxR family) (PrlR). In vitro, Brucella spp. with a functional PrlR/S system form bacterial aggregates, which seems to be an adaptive response to a hypersaline environment, while a prlS/R mutant does not. We identified ionic strength as a possible signal sensed by this TCS. Finally, this work correlates the absence of a functional PrlR/S system with the lack of hypersaline-induced aggregation in particular marine Brucella spp. |
