Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P51532 (transcriptional activator)
6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The expression of the pertussis toxin ptx operon is positively regulated in cis by a promoter region of about 170 base pairs and in trans by the bvg locus, which codes for the transcriptional activator protein BvgA. The promoter contains two direct repeats which are essential for its activity. When the position of these direct repeats relative to the transcription start point was changed, the activity of the promoter was strongly impaired. The repeated sequences therefore do not represent enhancer-like elements similar to those which have been identified in other positively regulated promoters; instead, the integrity of the whole promoter region seems to be an important feature of ptx regulation. A transcription interference assay was carried out to analyze in vivo binding of regulatory proteins to the ptx promoter. The results suggest that the direct repeats are the recognition sequence of a protein, which binds to them only under conditions in which the promoter is activated. In vitro DNA binding experiments with BvgA protein purified from an overproducing Escherichia coli strain were performed. However, no binding of BvgA to the ptx promoter was observed under conditions where binding of BvgA to the fha and bvg promoters occurred. This suggests that factors in addition to the bvg system are involved in the regulation of the Bordetella virulence regulon.
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PMID:Functional analysis of the pertussis toxin promoter. 148 51

Regulation of the genes coding for virulence factors in Bordetella pertussis is controlled by the bvg locus, which encodes one putative sensory protein (BvgS) and one positive regulator of transcription (BvgA). We have studied the transcription of the bvg locus and found that this is controlled by a 350-base-pair DNA fragment, which contains five promoters, three of which transcribe the bvg locus, one transcribes an antisense RNA, and one transcribes a virulence-associated gene. Under noninducing conditions, only the promoter P2 is active and this is responsible for the production of low amounts of regulatory proteins. Upon induction, the other four promoters become active and, by a mechanism that may involve transcriptional and translational regulation, cause a 50-fold increase of the transcriptional activator BvgA. A model of the autoregulation of the bvg locus is presented.
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PMID:Positive transcriptional feedback at the bvg locus controls expression of virulence factors in Bordetella pertussis. 226 7

Transcription of numerous virulence genes in Bordetella pertussis is positively regulated by the products of the bvgAS genes. In this study a series of lacZYA fusions containing deletions in either the fhaB or bvgA promoter regions was used to identify cis-acting regulatory regions required for bvg activation of these two genes. Gel retardation and DNase I protection analyses have shown that specific protein-DNA interactions occur at these regulatory regions and that these interactions require the transcriptional activator protein BvgA. The regulatory regions found upstream of fhaB and bvgA which are involved in protein binding both contain the sequence TTTCCTA. This sequence is part of an inverted repeat upstream of fhaB and a direct repeat upstream of bvgA. Homologous repeats are not apparent upstream of other bvg-activated genes, such as ptx and cyaA. These data suggest that the mechanism for transcriptional regulation of the other bvg-activated genes is complex and may require regulatory factors in addition to the bvgAS gene products.
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PMID:Identification of Bordetella pertussis regulatory sequences required for transcriptional activation of the fhaB gene and autoregulation of the bvgAS operon. 200 57

Bordetella pertussis, the causative agent of whooping cough, regulates its virulence factors coordinately according to environmental parameters such as temperature and certain chemicals. A regulatory locus has been characterized which is essential for this regulation. This bvg locus codes for a two-component regulatory system composed of the sensor protein BvgS and the transcriptional activator protein BvgA. It has been shown that the BvgA and BvgS proteins are sufficient for the transcriptional regulation of some virulence factors such as the filamentous haemagglutinin (FHA) involved in adhesion. The recent identification of new regulatory mutants demonstrates that the regulation of some virulence factors such as the pertussis toxin (PTX) and the adenylate cyclase toxin (CYA) is more complex and involves additional regulatory factor(s). This finding suggests that the regulation of the various virulence factors is coordinated at the highest level of regulation, but there may be differences in the fine regulation of some of the factors such as the adhesins and the toxins.
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PMID:Differential regulation of Bordetella pertussis virulence factors. 834 25

The expression of the filamentous haemagglutinin (FhaB) of Bordetella pertussis is positively regulated by the bvg locus which encodes a transcriptional activator, BvgA, and a transmembrane sensor protein, BvgS. The gene encoding FhaB, fhaB alone, is not expressed in Escherichia coli, but the introduction of the bvg locus in trans can restore fhaB expression. Using fhaB::lacZY fusions, we have isolated, in E. coli, partially bvg-independent constitutive mutants. The corresponding mutations have been localized to the upstream region of the fhaB promoter at position -15, -16 and -42 from the transcription initiation site. In the absence of the bvg locus, the strength of the mutated promoters was 15 and 200 times higher than the wild-type promoter in the absence of the bvg locus. The expression of these mutated promoters was still enhanced by the presence of the bvg locus.
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PMID:Mutations which result in constitutive expression of the Bordetella pertussis filamentous haemagglutinin gene. 852 53

In Bordetella pertussis, transcription of virulence-associated genes is regulated by the BvgS and BvgA proteins, members of the bacterial two-component signal-transduction family. BvgS is the transmembrane sensor and BvgA, in its phosphorylated form, is believed to be the key transcriptional activator in B. pertussis. However, the BvgA recognition sites in most virulence promoters have not yet been identified. To investigate the interaction of BvgA with the upstream region of cyaA, the gene encoding adenylate cyclase haemolysin, we have produced large amounts of BvgA in Escherichia coli. The protein was purified from inclusion bodies and then phosphorylated by acetyl phosphate. Using electrophoretic mobility-shift and footprinting assays, we provide evidence that BvgA cannot bind to the cyaA promoter unless it is phosphorylated. The phosphorylated form of BvgA (BvgA-P) is able to bind specifically to the upstream region of cyaA. Analysis of this region revealed that an unexpectedly large sequence, from -137 to -51, appears to be the target for BvgA-P binding, and probably contains multiple binding sites.
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PMID:Phosphorylation-dependent binding of BvgA to the upstream region of the cyaA gene of Bordetella pertussis. 873 28

The expression of virulence factor genes in Bordetella pertussis is mediated by the BvgA-BvgS two-component signal transduction system. The response regulator, BvgA, acts directly as a transcriptional activator at the loci encoding pertussis toxin (ptx) and filamentous hemagglutinin (fha). Previous studies have demonstrated that these two loci are differentially regulated by BvgA. As an initial step in gaining insight into the mechanism underlying this differential regulation, we initiated DNA binding and in vitro transcription analyses to examine the activities of BvgA and RNA polymerase (RNAP) purified from both B. pertussis and Escherichia coli at the fha promoter. We discovered that unphosphorylated BvgA binds to a single region (-100 to -70, relative to the start of transcription), whereas phosphorylated BvgA binds both this region and another, farther downstream, that extends to the -35 nucleotide. In the absence of BvgA, RNAP binds a region farther upstream than expected (-104 to -35). However, occupation of both sites by BvgA phosphate repositions RNAP to the site used in vivo. The binding of BvgA phosphate to the downstream site correlates with in vitro transcriptional activity at the fha promoter. As the DNA binding and transcription activities of the E. coli-derived RNAP are similar to those observed for the B. pertussis enzyme, we employed several mutant E. coli proteins in in vitro transcription analyses. We observed that polymerases carrying either a deletion of the C-terminal domain of the alpha subunit or substitution of alanine at either of two critical residues within this domain were severely impaired in the ability to mediate BvgA-activated transcription at fha.
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PMID:Nature of DNA binding and RNA polymerase interaction of the Bordetella pertussis BvgA transcriptional activator at the fha promoter. 904 38

Bordetella bronchiseptica is a common ureolytic mammalian respiratory pathogen. The urease operon of this organism is encoded within an 8.9 kb DNA fragment which contains the structural genes (ureA, ureB and ureC) and accessory genes (ureD and ureG) homologous to other urease genes. Uniquely, the ureE and ureF genes are fused to form a hybrid protein, UreEF, which may result in tighter coordination of the putative functions of the individual accessory genes, nickel donation to the urease active site, and prevention of nickel incorporation until correct formation of the active site, respectively. The operon contains an additional open reading frame, UreJ, found only also in the Alcaligenes eutrophus urease operon. UreJ is also 37% homologous with HupE from Rhizobium leguminosarum bv. viciae, and may potentially be involved in nickel transport. A transcriptional activator, designated Bordetella bronchiseptica urease regulator (BbuR), is located directly upstream and in the opposite orientation to the urease operon. BbuR shares homology with members of the LysR regulatory protein family. LysR proteins have been shown to regulate urease in Klebsiella aerogenes (NAC), and catalase in Escherichia coli (OxyR), which offers the intracellular bacterium protection from phagolysosome damage. A putative BbuR binding site (5'-ATA-N9-TAT-3'), identical to the NAC-binding consensus sequence, was found 27 bp upstream of the urease promoter in B. bronchiseptica. We hypothesise that BbuR controls urease expression which is involved in protection of intracellular B. bronchiseptica from phagolysosomal damage. Comparison of the urease promoter regions of B. bronchiseptica, Bordetella parapertussis ATCC15311 and the urease-negative strain B. pertussis Tohama I revealed no differences in the ureD open reading frame between each species. A cluster of mutations in both B. pertussis and B. parapertussis was found upstream of the urease promoter, in a region proximal to the putative bbuR promoter. The inability of B. pertussis to produce urease may therefore reflect mutations in regulatory elements, and not mutations in the urease locus itself.
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PMID:Characterisation of the urease gene cluster in Bordetella bronchiseptica. 952 76

Whooping cough is an acute respiratory disease caused by the small, gram-negative bacterium Bordetella pertussis. B. pertussis expresses several factors that contribute to its ability to cause disease. These factors include surface-associated molecules, which are involved in the adherence of the organism to respiratory epithelial cells, as well as several extracellular toxins that inhibit host defenses and induce damage to host tissues. The expression of virulence factors in B. pertussis is dependent upon the bvg locus, which consists of three genes: bvgA, bvgS, and bvgR. The bvgAS genes encode a two-component regulatory system consisting of a sensor protein, BvgS, and a transcriptional activator, BvgA. Upon modification by BvgS, BvgA binds to the promoter regions of the bvg-activated genes and activates transcription. One of the bvg-activated genes, bvgR, is responsible for the regulation of the bvg-repressed genes, the functions of which are unknown. The fact that these genes are regulated by the bvg locus suggests that they play a role in the pathogenesis of the bacterium. In order to evaluate the contribution of bvg-mediated regulation to the virulence of B. pertussis and determine if expression of the bvg-repressed genes is required for the virulence of B. pertussis, we examined the ability of B. pertussis mutants, defective in their ability to regulate the expression of the bvg-activated and/or the bvg-repressed genes, to cause disease in the mouse aerosol challenge model. Our results indicate that the bvgR-mediated regulation of gene expression contributes to respiratory infection of mice.
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PMID:Contribution of regulation by the bvg locus to respiratory infection of mice by Bordetella pertussis. 971 89

Overexpression of the RNA polymerase alpha subunit in Bordetella pertussis reduces expression of the virulence factor pertussis toxin. Here we show that this reduction is at the level of transcription, is reversed by overexpression of the transcriptional activator BvgA, and is dependent on the C-terminal domain of alpha.
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PMID:Overexpression of the RNA polymerase alpha subunit reduces transcription of Bvg-activated virulence genes in Bordetella pertussis. 1062 5


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