The anti-anti-sigma factor BldG has a role in the morphological differentiation and antibiotic production of Streptomyces coelicolor A3(2). Together with the anti-sigma factor UshX it is involved in the "partner-switching"-like activation of the sigma factor σ(H) that has a dual role in the osmotic stress response and morphological differentiation in S. coelicolor A3(2). Although BldG is phosphorylated in vivo in S. coelicolor, neither of the interacting anti-sigma factors UshX and ApgA is found to phosphorylate it. By using a combination of several approaches, we demonstrated a direct interaction between BldG and the anti-sigma factor RsfA, which has been previously shown to regulate antibiotic production and morphological differentiation in S. coelicolor and to specifically interact with the sporulation-specific sigma factor σ(F). RsfA phosphorylates BldG in vitro, demonstrating that RsfA is a specific kinase for BldG and negatively regulates its activity. However, another interacting anti-anti-sigma factor homolog, SCO0869, was not phosphorylated by RsfA. Transcriptional analyses of rsfA revealed a single promoter, the activity of which was repressed by osmotic stress and decreased during differentiation. These data suggested that BldG has a pleiotropic role in the regulation of at least two sigma factors, σ(H) and σ(F), in S. coelicolor.
Keywords: Anti-sigma factor; Partner-switching mechanism; Phosphorylation; Promoter; S1-nuclease mapping; Sigma factor.
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