Competition between the GlnR and PhoP regulators for the glnA and amtB promoters in Streptomyces coelicolor

Interaction of regulatory networks is a subject of great interest in systems biology of bacteria. Phosphate control of metabolism in Streptomyces is mediated by the two-component system PhoR-PhoP. Similarly, the utilization of different nitrogen sources is controlled by the regulator GlnR. Transcrip...

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Bibliographic Details
Published inNucleic acids research Vol. 41; no. 3; pp. 1767 - 1782
Main Authors Sola-Landa, Alberto, Rodríguez-García, Antonio, Amin, Rafat, Wohlleben, Wolfgang, Martín, Juan F
Format Journal Article
LanguageEnglish
Published England Oxford University Press 01.02.2013
Subjects
Bacterial Proteins - metabolism
Binding Sites
Binding, Competitive
Cation Transport Proteins - genetics
Glutamate-Ammonia Ligase - genetics
Molecular Biology
Mutagenesis
Nitrogen - metabolism
Operator Regions, Genetic
Promoter Regions, Genetic
Streptomyces coelicolor - genetics
Streptomyces coelicolor - metabolism
Trans-Activators - metabolism
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Summary:Interaction of regulatory networks is a subject of great interest in systems biology of bacteria. Phosphate control of metabolism in Streptomyces is mediated by the two-component system PhoR-PhoP. Similarly, the utilization of different nitrogen sources is controlled by the regulator GlnR. Transcriptomic and biochemical analysis revealed that glnA (encoding a glutamine synthetase), glnR and other nitrogen metabolism genes are under PhoP control. DNA-binding experiments showed that PhoP binds to other nitrogen-regulated genes (SCO0255, SCO01863 and ureA). Using the glnA promoter as model, we observed that PhoP and GlnR compete for binding to the same promoter region, showing GlnR a higher affinity. Using a total of 14 GlnR-binding sites (50 direct repeat units) we established two information-based models that describe the GlnR box as consisting of two 11-nt direct repeats each with clear differences to PHO box. DNA-binding studies with different mutant sequences of glnA promoter revealed that the sequence recognized by GlnR is found in the coding strand whereas that recognized by PhoP is overlapping in the non-coding strand. In amtB promoter PhoP and GlnR boxes are not totally overlapping and both proteins bind simultaneously. PhoP control of nitrogen metabolism genes helps to balance the cellular P/N equilibrium.
ISSN:0305-1048
1362-4962
DOI:10.1093/nar/gks1203