Listeria monocytogenes Requires the RsbX Protein To Prevent SigB Activation under Nonstressed Conditions
Ana H. Oliveira, Teresa Tiensuu, Duarte N. Guerreiro, Hasan Tükenmez, Charlotte Dessaux, Francisco Garcı́a-del Portillo, Conor O’Byrne, Jörgen Johansson
Abstract
Pathogenic bacteria need to sense and respond to stresses to survive harsh environments and also to turn off the response when no longer facing stress. Activity of the stress sigma factor SigB in the human pathogen Listeria monocytogenes is controlled by a hierarchic system having a large stress-sensing multiprotein complex known as the stressosome at the top. Following stress exposure, proteins in the stressosome become phosphorylated, leading to SigB activation. We have studied the role of a putative phosphatase, RsbX, which is hypothesized to dephosphorylate stressosome proteins. RsbX is critical not only to switch off the stress response poststress but also to keep the activity of SigB low at nonstressed conditions to prevent unnecessary gene expression and save energy.