Autoinduction ofBacillus subtilis phoPROperon Transcription Results from Enhanced Transcription from EσA- and EσE-Responsive Promoters by Phosphorylated PhoP

Paul, Salbi; Birkey, S. M.; Liu, Wei; Hulett, F. Marion

doi:10.1128/jb.186.13.4262-4275.2004

Cited by 23 publications

(58 citation statements)

References 41 publications

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“…In B. subtilis, the well characterized phoPR promoter region contains five different starts which respond to 285 different environmental stimuli, some of them constitutive but enhanced by PhoP~P (phosphorylated PhoP) binding (Paul et al 2004). Constitutive low expression of the S. coelicolor phoRP promoter region in a similar manner is very plausible since a basal level of PhoR-PhoP ready to be activated when phosphate is scarce must be available within the cell.…”

Section: Advantages 275mentioning

confidence: 97%

Is PhoR–PhoP partner fidelity strict? PhoR is required for the activation of the pho regulon in Streptomyces coelicolor

2012

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Section: Advantages 275mentioning

confidence: 97%

Is PhoR–PhoP partner fidelity strict? PhoR is required for the activation of the pho regulon in Streptomyces coelicolor

2012

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“…Many two-component systems are transcribed from more than one promoter: for example phoPQ in Salmonella typhimurium (Soncini et al, 1995), bvgAS of Bordetella pertussis (Scarlato et al, 1990) and phoPR in Bacillus subtilis (Paul et al, 2004). This strategy allows for differential usage and regulation of promoters under diverse environmental conditions to facilitate bacterial adaptation.…”

Section: Discussionmentioning

confidence: 99%

Transcription and autoregulation of the Rv3134c-devR-devS operon of Mycobacterium tuberculosis

et al. 2005

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DevR is a transcriptional regulator that mediates the genetic response of Mycobacterium tuberculosis to oxygen limitation and nitric oxide exposure. devR is co-transcribed along with devS, which encodes its cognate sensor kinase, and an upstream gene, Rv3134c. The transcriptional activity of this operon was characterized by primer extension, transcriptional fusion and electrophoretic mobility shift assays (EMSAs) under aerobic conditions. Transcription start points (Tsps) were detected upstream of both Rv3134c and devR, and the major transcript was derived from upstream of Rv3134c. Sequences with similarity to sigma factor consensus elements and to DevR-binding motifs were detected in the vicinity of the Tsps by in silico analysis. EMSAs with promoter regions and DevR protein showed that DevR binds to its own promoters in a sequence-specific manner with differing affinities. Consistent with the primer extension and EMSA data, Rv3134c promoters, and not devR promoters, were determined to be the principal promoters of this operon using reporter assays performed in Mycobacterium smegmatis and Escherichia coli. Furthermore, DevR modulated the activity of both devR and Rv3134c promoters. From these findings it is inferred that the Rv3134c-devR-devS operon is transcribed from multiple promoters and is autoregulated.

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“…For genes classified as both Pho and E E regulon genes, the mechanism responsible for inclusion of the phoPR promoter has been explained by PhoPϳP amplification of A -and E -responsive phoPR operon promoters (35). Here we showed that the PhoP-regulated phoB promoter, P V , is a A promoter and that transcription from the second promoter, P S, requires only E E , although the P S transcription was delayed in a phoPR mutant (Fig.…”

Section: Discussionmentioning

confidence: 72%

“…The putative yycOP and glnQ promoters are interesting in that both contain two putative consensus repeats for a PhoP dimer binding site on the coding strand on either side of the Ϫ35 element of the putative E promoter. It should be interesting to determine if E E -responsive PhoP-activated genes exist (in addition to autoregulation) and if their requirement for PhoP binding is different than the requirement for all PhoP-activated A promoters studied (13) or for the PhoP-enhanced autoregulation E E promoter (35).…”

Section: Discussionmentioning

confidence: 99%

“…Inclusion of the phoPR promoter among these genes and operons is explained by evidence indicating that three of the six phoPR operon promoters (35; A. Puri and F. M. Hulett, unpublished data) require PhoPϳP for enhanced transcription. One of these promoters is an E Eresponsive promoter, and two are E A promoters (35). phoB promoter deletion analysis was previously performed using a number of nonisogenic B. subtilis strains that contained mutations in important regulatory genes, including abrB, spo0A, spo0B, sigF, spoIIE, sigE, phoR, phoP, and phoS (9,20).…”

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confidence: 99%

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Bacillus subtilisPhosphorylated PhoP: Direct Activation of the Eσ^A- and Repression of the Eσ^E-ResponsivephoB-P_S+VPromoters during Pho Response

et al. 2005

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The phoB gene of Bacillus subtilis encodes an alkaline phosphatase (PhoB, formerly alkaline phosphatase III) that is expressed from separate promoters during phosphate deprivation in a PhoP-PhoR-dependent manner and at stage two of sporulation under phosphate-sufficient conditions independent of PhoP-PhoR. Isogenic strains containing either the complete phoB promoter or individual phoB promoter fusions were used to assess expression from each promoter under both induction conditions. The phoB promoter responsible for expression during sporulation, phoB-P S , was expressed in a wild-type strain during phosphate deprivation, but induction occurred >3 h later than induction of Pho regulon genes and the levels were approximately 50-fold lower than that observed for the PhoPR-dependent promoter, phoB-P V . E E was necessary and sufficient for P S expression in vitro. P S expression in a phoPR mutant strain was delayed 2 to 3 h compared to the expression in a wild-type strain, suggesting that expression or activation of E is delayed in a phoPR mutant under phosphate-deficient conditions, an observation consistent with a role for PhoPR in spore development under these conditions. Phosphorylated PhoP (PhoPϳP) repressed P S in vitro via direct binding to the promoter, the first example of an E E -responsive promoter that is repressed by PhoPϳP. Whereas either PhoP or PhoPϳP in the presence of E A was sufficient to stimulate transcription from the phoB-P V promoter in vitro, roughly 10-and 17-fold-higher concentrations of PhoP than of PhoPϳP were required for P V promoter activation and maximal promoter activity, respectively. The promoter for a second gene in the Pho regulon, ykoL, was also activated by elevated concentrations of unphosphorylated PhoP in vitro. However, because no Pho regulon gene expression was observed in vivo during P i -replete growth and PhoP concentrations increased only threefold in vivo during phoPR autoinduction, a role for unphosphorylated PhoP in Pho regulon activation in vivo is not likely.

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Autoinduction ofBacillus subtilis phoPROperon Transcription Results from Enhanced Transcription from Eσ^A- and Eσ^E-Responsive Promoters by Phosphorylated PhoP

Cited by 23 publications

References 41 publications

Is PhoR–PhoP partner fidelity strict? PhoR is required for the activation of the pho regulon in Streptomyces coelicolor

Is PhoR–PhoP partner fidelity strict? PhoR is required for the activation of the pho regulon in Streptomyces coelicolor

Transcription and autoregulation of the Rv3134c-devR-devS operon of Mycobacterium tuberculosis

Bacillus subtilisPhosphorylated PhoP: Direct Activation of the Eσ^A- and Repression of the Eσ^E-ResponsivephoB-P_S+VPromoters during Pho Response

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Autoinduction ofBacillus subtilis phoPROperon Transcription Results from Enhanced Transcription from EσA- and EσE-Responsive Promoters by Phosphorylated PhoP

Cited by 23 publications

References 41 publications

Is PhoR–PhoP partner fidelity strict? PhoR is required for the activation of the pho regulon in Streptomyces coelicolor

Is PhoR–PhoP partner fidelity strict? PhoR is required for the activation of the pho regulon in Streptomyces coelicolor

Transcription and autoregulation of the Rv3134c-devR-devS operon of Mycobacterium tuberculosis

Bacillus subtilisPhosphorylated PhoP: Direct Activation of the EσA- and Repression of the EσE-ResponsivephoB-PS+VPromoters during Pho Response

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Autoinduction ofBacillus subtilis phoPROperon Transcription Results from Enhanced Transcription from Eσ^A- and Eσ^E-Responsive Promoters by Phosphorylated PhoP

Bacillus subtilisPhosphorylated PhoP: Direct Activation of the Eσ^A- and Repression of the Eσ^E-ResponsivephoB-P_S+VPromoters during Pho Response