Systematic targeted mutagenesis of the MarR/SlyA family members of Dickeya dadantii 3937 reveals a role for MfbR in the modulation of virulence gene expression in response to acidic pH

P>Pathogenicity of Dickeya dadantii is a process involving several factors, such as plant cell wall-degrading enzymes and adaptation systems to adverse conditions encountered in the apoplast. Regulators of the MarR family control a variety of biological processes, including adaptation to hostile environments and virulence. Analysis of the members of this family in D. dadantii led to the identification of a new regulator, MfbR, which controls virulence. MfbR represses its own expression but activates genes encoding plant cell wall-degrading enzymes. Purified MfbR increases the binding of RNA polymerase at the virulence gene promoters and inhibits transcription initiation at the mfbR promoter. MfbR activity appeared to be modulated by acidic pH, a stress encountered by pathogens during the early stages of infection. Expression of mfbR and its targets, during infection, showed that MfbR is unable to activate virulence genes in acidic conditions at an early step of infection. In contrast, alkalinization of the apoplast, during an advanced stage of infection, led to the potentialization of MfbR activity resulting in plant cell wall degrading enzyme production. This report presents a new example of how pathogens adjust virulence-associated factors during the time-course of an infection.