UNIPROT:P51532 - FACTA Search

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Query: UNIPROT:P51532 (transcriptional activator)
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Exoenzyme S is an ADP-ribosyltransferase enzyme distinct from exotoxin A that is synthesized and secreted by Pseudomonas aeruginosa. Yields of exoenzyme S are variable and depend on strain and growth conditions. Since certain medium additives are required for exoenzyme S production, its regulation may be influenced by environmental stimuli. In this study, we have cloned a region that complements the exoenzyme S-deficient phenotype of strain 388 exs1::Tn1, a chromosomal Tn1 insertional mutation. A large clone (28 kb) was shown to restore both synthesis and secretory functions to the mutant strain. Subcloning and Tn501 mutagenesis experiments localized the region required for exoenzyme S synthesis to a 3.2-kb fragment. Nucleotide sequence analysis demonstrated several open reading frames. Comparison of the N-terminal amino acid sequence of purified exoenzyme S with predicted amino acid sequences of all open reading frames indicated that the structural gene was not encoded within the sequenced region. Homology studies suggested that the region encoded three regulatory genes, exsC, exsB, and exsA. ExsA was homologous to the AraC family of transcriptional activator proteins, with extensive homology being found with one member of this family, VirF of Yersinia enterocolitica. VirF and ExsA both contain carboxy-terminal domains with the helix-turn-helix motif of DNA-binding proteins. The ExsA gene product appeared to be required for induction of exoenzyme S synthesis above a low basal level. Expression of ExsA was demonstrated by cloning the region under the control of the T7 promoter. Gene replacement experiments suggested that the expression of ExsC affects the final yield of exoenzyme S.
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PMID:Cloning and sequence analysis of a trans-regulatory locus required for exoenzyme S synthesis in Pseudomonas aeruginosa. 165 13

Virulent yersiniae (Yersinia pestis, Y. pseudotuberculosis, and Y. enterocolitica) restrict their growth at 37 degrees C in rich medium deprived of calcium. This property, called calcium dependency, correlates with the secretion of Yersinia outer membrane proteins (Yops) and with pathogenicity. It is mediated by a 70-kilobase plasmid called pYV. The structural genes of the Yops (yop genes), as well as genes involved in the control of their expression (vir genes), have been localized on pYV. In this communication we show that virF encodes a transcriptional activator controlling the yop regulon. This activator is a 30,879-dalton protein related to AraC, the regulator of the Escherichia coli and Salmonella typhimurium arabinose operons. We also show in this paper that transcription of virF is thermodependent and presumably autoregulated. virF is thus responsible for the effect of temperature on the production of the Yops. Finally, we show that virF activates transcription of the yop genes independently of the presence of calcium ions. The role of calcium therefore remains unaccounted for.
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PMID:Homology between virF, the transcriptional activator of the Yersinia virulence regulon, and AraC, the Escherichia coli arabinose operon regulator. 264 92

The hrpX gene is essential for pathogenicity of Xanthomonas species. Loss of hrpX by mutation results in the loss of pathogenicity and a gain in the ability of Xanthomonas to cause the hypersensitive response in their respective host plants, suggesting that hrpX confers a means to evade this host defense response. The function of HrpX protein was predicted by sequencing of hrpXc and hrpXo from X. campestris pv. campestris and X. oryzae, respectively. The predicted amino acid sequences of the protein encoded by these respective genes revealed similarities (45.96%) to the HrpB protein of Burkholderia solanacearum, which has sequence identity to the transcriptional activator VirF of Yersinia enterocolitica and AraC of Escherichia coli. Thus, HrpX may regulate Xanthomonas virulence genes since a putative DNA binding domain present in the carboxyl terminal half of HrpX is highly conserved among HrpB, VirF and AraC and since over-expression of the carboxyl terminal half of HrpX in E. coli is lethal.
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PMID:Conservation of the hypersensitivity-pathogenicity regulatory gene hrpX of Xanthomonas campestris and X. oryzae. 762 86

Enteroaggregative Escherichia coli (EAggEC) has been associated with persistent pediatric diarrhea in the developing world, yet the pathogenetic mechanisms of EAggEC infection are unknown. Our previous data have suggested that aggregative adherence of some EAggEC strains to HEp-2 cells is mediated by flexible, bundle-forming fimbriae, which we have termed aggregative adherence fimbriae I (AAF/I). Genes sufficient to confer expression of AAF/I are located on the 60-MDa plasmid of EAggEC 17-2; AAF/I genes are present as two unlinked plasmid regions (regions 1 and 2), separated by 9 kb of DNA. Here we report the complete DNA sequencing of region 2 and the identification of an open reading frame which is involved in the expression of AAF/I. One open reading frame of 794 bp encodes a protein (designated AggR) with a predicted molecular size of 29.4 kDa, which shows a high degree of amino acid sequence identity to CfaR and other members of the AraC class of gene regulators. The cloned aggR gene (or, alternatively, a cloned cfaR gene) was sufficient to complement a region 1 clone to confer AAF/I expression. To further substantiate the role of aggR in the regulation of AAF/I, we constructed a 289-bp in-frame aggR deletion and replaced the native gene in 17-2 by allelic exchange, using the temperature-sensitive vector pIB307. The resulting aggR deletions were negative for AAF/I expression, but expression was restored when the aggR gene (cloned into pBluescript II SK) was reintroduced into the aggR mutant. RNA slot blot experiments using a probe for the putative AAF/I pilin subunit (aggA) revealed that aggR operates as a transcriptional activator of aggA expression. aggA::phoA fusions were constructed in 17-2 and in 17-2 delta aggR. AggR was found to promote expression of the aggA gene under a variety of conditions of temperature, osmolarity, oxygen tension, and medium. At acid pH, aggA expression was maximal and was regulated by both AggR-dependent and AggR-independent mechanisms.
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PMID:AggR, a transcriptional activator of aggregative adherence fimbria I expression in enteroaggregative Escherichia coli. 791 30

A genetic response of Escherichia coli to nitric oxide or to superoxide-generating agents such as paraquat is controlled by the soxRS locus. The intracellular redox signals generated by these agents are sensed by the SoxR protein which, when activated, functions as a potent activator of soxS transcription. The resulting increased level of SoxS protein then activates approximately 10 genes that constitute the soxRS regulon. Although the SoxS protein is homologous to the COOH-terminal region of the AraC family of regulatory proteins, the mechanism by which SoxS protein activates the soxRS regulon promoters is unknown. We identified in extracts of cells expressing high levels of SoxS protein a DNA binding activity specific for fragments containing soxRS-regulated promoters. This binding activity was purified to physical homogeneity and proved to be the SoxS protein, as confirmed by NH2-terminal amino acid sequencing. The purified SoxS protein bound specifically to the promoters of the micF, zwf, nfo, and sodA genes. Multiple DNA-protein complexes were formed by SoxS in a concentration-dependent fashion with each of these promoters. This binding of SoxS protein also facilitated the subsequent binding of E. coli RNA polymerase to both the micF and the nfo promoters. The binding sites of SoxS in the zwf and micF promoters were identified by DNase I footprinting, which revealed an extended protected region immediately upstream of the respective -35 sites. These results indicate that the small SoxS protein (M(r) of only 12,900) is a direct transcriptional activator of the oxidative stress genes of the soxRS regulon, although the possible involvement of other proteins in transcription activation by SoxS has not been ruled out.
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PMID:SoxS, an activator of superoxide stress genes in Escherichia coli. Purification and interaction with DNA. 803 83

Pseudomonas aeruginosa K372 is deficient in the production of both the 75-kDa ferripyochelin receptor protein and pyochelin. A 1.8-kb EcoRI-SalI fragment which restored production of both the receptor protein and pyochelin was cloned. Nucleotide sequencing of the fragment revealed an open reading frame of 888 bp, designated pchR (pyochelin), capable of encoding a 296-amino-acid protein of a 32,339-Da molecular mass. By using a phage T7-based expression system, a protein of ca. 32 kDa was produced off the 1.8-kb fragment, confirming that this open reading frame was indeed expressed. A region exhibiting homology to the consensus Fur-binding site of Escherichia coli was identified upstream of the pchR coding region overlapping a putative promoter. In addition, the C-terminal 80 amino acid residues of PchR showed approximately 50% homology (identity, 31%; conserved changes, 19%) to the carboxy terminus of AraC, a known transcriptional activator of gene expression in E. coli, Salmonella typhimurium, Citrobacter freundii, and Erwinia chrysanthemi. Within the C-terminal region of PchR, AraC, and a number of other members of the AraC family of transcriptional activators, there exists a highly conserved 17-residue domain where, in fact, two residues are strictly maintained and two others exhibit only conserved changes, suggesting a common functional significance to this region in all of these proteins. These data are consistent with a role for PchR as a transcriptional activator of pyochelin and ferripyochelin receptor synthesis in P. aeruginosa. In agreement with this, a PchR mutant obtained by in vitro mutagenesis and gene replacement was deficient in production of the ferripyochelin receptor and pyochelin.
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PMID:Cloning and sequence analysis of a gene (pchR) encoding an AraC family activator of pyochelin and ferripyochelin receptor synthesis in Pseudomonas aeruginosa. 839 86

The AraC protein, which regulates the L-arabinose operons in Escherichia coli, was dissected into two domains that function in chimeric proteins. One provides a dimerization capability and binds the ligand arabinose, and the other provides a site-specific DNA-binding capability and activates transcription. In vivo and in vitro experiments showed that a fusion protein consisting of the N-terminal half of the AraC protein and the DNA-binding domain of the LexA repressor dimerizes, binds well to a LexA operator, and represses expression of a LexA operator-beta-galactosidase fusion gene in an arabinose-responsive manner. In vivo and in vitro experiments also showed that a fusion protein consisting of the C-terminal half of the AraC protein and the leucine zipper dimerization domain from the C/EBP transcriptional activator binds to araI and activates transcription from a PBAD promoter-beta-galactosidase fusion gene. Dimerization was necessary for occupancy and activation of the wild-type AraC binding site.
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PMID:Functional domains of the AraC protein. 851 13

The structural gene for copper- and topa quinone-containing monoamine oxidase (maoA) and an unknown amine oxidase gene have been located at 30.9 min on the Escherichia coli chromosome. Deletion analysis showed that the unknown gene was located within a 1.1-kb cloned fragment adjacent to the maoA gene. The nucleotide sequence of this fragment was determined, and a single open reading frame (maoB) consisting of 903 bp was found. The gene encoded a polypeptide with a predicted molecular mass of 34,619 Da which was correlated with the migration on a sodium dodecyl sulfate-polyacrylamide gel. The predicted amino acid sequence of the MaoB protein was identical to the NH2-terminal amino acid sequence derived by Edman degradation of the protein synthesized under the self-promoter. No homology of the nucleotide sequence of maoB to the sequences of any reported genes was found. However, the amino acid sequence of MaoB showed a high level of homology with respect to the helix-turn-helix motif of the AraC family in its C terminus. The homology search and disruption of maoA on the chromosome led to the conclusion that MaoB is a transcriptional activator of maoA but not an amine oxidase. The consensus sequence of the cyclic AMP-cyclic AMP receptor protein complex binding domain was adjacent to the putative promoter for the maoB gene. By use of lac gene fusions with the maoA and maoB genes, we showed that the maoA gene is regulated by tyramine and MaoB and that the expression of the maoB gene is subject to catabolite repression. Thus, it seems likely that tyramine and the MaoB protein activate the transcription of maoA by binding to the regulatory region of the maoA gene.
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PMID:maoB, a gene that encodes a positive regulator of the monoamine oxidase gene (maoA) in Escherichia coli. 863 85

The Proteus mirabilis and plasmid-encoded urease loci contain seven contiguous structural and accessory genes (ureDABCEFG) and the divergently transcribed ureR, which codes for an AraC-like transcriptional activator. Previously, it was shown that the plasmid-encoded ureR to ureD intergenic region contained divergent promoters (ureRp and ureDp). Transcription from these promoters required both the effector molecule urea and the activator protein UreR. In this report, we demonstrate that the P. mirabilis urease gene cluster contains similar divergent urea- and UreR-dependent promoters. The ureR gene products from either urease locus were able to activate transcription at both the plasmid-encoded and P. mirabilis promoters. The minimal concentration of urea required to activate transcription at ureRp or ureDp from either gene cluster was approximately 4 mM. The transcriptional start sites for the plasmid-encoded and P. mirabilis divergent promoters were similar in an Escherichia coli DH5 alpha background, as determined by primer-extension analysis. However, in P. mirabilis HI4320, transcription of ureR initiated predominately at an alternative site. Physical mapping and inhibition studies were used to localize the UreR-binding sites within the plasmid-encoded ureRp and ureDp intergenic sequences to regions of 68 bp and 86 bp, respectively. Gel shift analysis demonstrated that UreR bound to a 135 bp fragment in the approximate centre of the plasmid-encoded ureR to ureD intergenic region. The results presented here suggest that the P. mirabilis and plasmid-encoded urease gene clusters utilize similar mechanisms of transcriptional activation in response to urea.
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PMID:Activation of transcription at divergent urea-dependent promoters by the urease gene regulator UreR. 886 86

The pesticin receptor (Psn) of Yersinia pestis confers sensitivity to the bacteriocin, pesticin, and is an integral component of an inorganic-iron-transport system that functions at 37 degrees C. Synthesis of Psn is under the control of its own promoter and is regulated by iron and probably by the presence of its cognate siderophore. We have used a psn promoter fusion with lacZ to identify cis- and trans-acting factors which affect transcription of the psn gene. As expected, expression of lacZ from this construct was iron regulated and repressed by Fur. Mutations within a putative siderophore biosynthetic gene (irp2) also decreased expression. A set of repeats adjacent to the -35 region of the psn promoter was required for maximum expression of the psn::lacZ gene. Sequence analysis of the region upstream of irp2 revealed the presence of a gene (ybtA) with homology to the AraC family of transcriptional regulators. Insertional inactivation of ybtA resulted in decreased synthesis of Psn and proteins encoded by the irp2 operon as well as decreased expression from the psn::lacZ promoter fusion, indicating that YbtA is a transcriptional activator for psn and the putative siderophore biosynthetic genes. YbtA also represses its own transcription.
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PMID:YbtA, an AraC-type regulator of the Yersinia pestis pesticin/yersiniabactin receptor. 893 Sep 16

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