Abstract
BackgroundGlnR is an atypical response regulator found in actinomycetes that modulates the transcription of genes in response to changes in nitrogen availability. We applied a global in vivo approach to identify the GlnR regulon of Streptomyces venezuelae, which, unlike many actinomycetes, grows in a diffuse manner that is suitable for physiological studies. Conditions were defined that facilitated analysis of GlnR-dependent induction of gene expression in response to rapid nitrogen starvation. Microarray analysis identified global transcriptional differences between glnR+ and glnR mutant strains under varying nitrogen conditions. To differentiate between direct and indirect regulatory effects of GlnR, chromatin immuno-precipitation (ChIP) using antibodies specific to a FLAG-tagged GlnR protein, coupled with microarray analysis (ChIP-chip), was used to identify GlnR binding sites throughout the S. venezuelae genome.ResultsGlnR bound to its target sites in both transcriptionally active and apparently inactive forms. Thirty-six GlnR binding sites were identified by ChIP-chip analysis allowing derivation of a consensus GlnR-binding site for S. venezuelae. GlnR-binding regions were associated with genes involved in primary nitrogen metabolism, secondary metabolism, the synthesis of catabolic enzymes and a number of transport-related functions.ConclusionsThe GlnR regulon of S. venezuelae is extensive and impacts on many facets of the organism's biology. GlnR can apparently bind to its target sites in both transcriptionally active and inactive forms.
Highlights
GlnR is an atypical response regulator found in actinomycetes that modulates the transcription of genes in response to changes in nitrogen availability
It plays a key regulatory role in the expression of genes involved in nitrogen metabolism in several actinomycetes, including Streptomyces coelicolor [4], Amycolatopsis mediterranei [5], Mycobacterium smegmatis [6] and the human pathogen Mycobacterium tuberculosis [7]
Defining conditions for induction of the GlnR regulon To aid in the accurate interpretation of global transcriptional data, a minimal Evans medium [18] was used that precisely defined the sources of all nutrients, providing a clear physiological perspective for data analysis
Summary
GlnR is an atypical response regulator found in actinomycetes that modulates the transcription of genes in response to changes in nitrogen availability. Microarray analysis identified global transcriptional differences between glnR+ and glnR mutant strains under varying nitrogen conditions. GlnR is one such transcriptional regulator belonging to the OmpR winged helix-turn-helix family. It plays a key regulatory role in the expression of genes involved in nitrogen metabolism in several actinomycetes, including Streptomyces coelicolor [4], Amycolatopsis mediterranei [5], Mycobacterium smegmatis [6] and the human pathogen Mycobacterium tuberculosis [7]. It was subsequently shown to activate expression of genes involved in ammonium assimilation, including glnA and glnII that encode glutamine synthetase isoenzymes GSI and GSII, respectively, and amtB that encodes an ammonium transporter [9]. GlnRII binds to the same promoter sequences as GlnR, but its role in nitrogen metabolism is not known [9]
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