UNIPROT:P51532 - FACTA Search

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

Upon incubation at 37 degrees C in the absence of Ca2+ ions, pathogenic yersiniae release large amounts of pYV plasmid-encoded proteins called Yops that are involved in pathogenesis. Yersinia enterocolitica also expresses an outer membrane protein that is considered an adhesin and called YadA (previously called P1 or YopA). The production of Yops is coordinately regulated by a 20-kb region of the plasmid referred to as the Ca2+ dependence region and containing at least four loci called virA, virB, virC, and virF. The virF gene encodes a key transcriptional activator of yop genes. We have shown here that virF is also required for transcription of yadA and that virB is necessary for full transcription of the yop and yadA genes. In contrast, mutations in genes virA and virC had only a weak influence on the transcription of yop and yadA genes. These mutations did not affect the production of YadA but they completely inhibited the translocation of Yops from the intracellular compartment to the extracellular milieu. We inferred from these data that virA and virC are involved in the specific transport of Yops. We analyzed the 8.5-kb virC region and showed that it is most probably a single operon containing 13 open reading frames called yscA to yscM (for Yop secretion). Protein YscC has a putative signal sequence and shares significant homology with outer membrane proteins involved in the secretion of pullulanase by Klebsiella pneumoniae (PulD) or in the assembly of filamentous bacteriophages (gene IV product). At least the putative products of yscD, yscJ, and yscL were shown to be required for the export of Yops. YscJ turned out to be YlpB, a lipoprotein that we had detected previously. The yscM gene shares homology with yopH, the adjacent gene on the pYV plasmid. Its product does not appear to be necessary for the production of Yops. Transcription of the virC operon was subjected to the same regulation as the yop genes.
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PMID:Analysis of virC, an operon involved in the secretion of Yop proteins by Yersinia enterocolitica. 186 Aug 16

Production of colanic acid in Escherichia coli is regulated by two negative regulators, Lon and RcsC, and by two positive regulators, RcsA and RcsB. Two genes of Klebsiella pneumoniae, rmpA and rmpB, have been shown to positively control colanic acid synthesis in E. coli. While colanic acid production is activated by RmpA only in a lon strain of E. coli, a plasmid carrying both rmpA and rmpB can stimulate colanic acid synthesis in a Lon+ strain. In this work, we present the determination of the nucleotide sequence of rmpB and, on the basis of comparison of the predicted RmpA and RmpB sequences with those of RcsA, B and C and two-component regulatory proteins, we propose that RmpA acts as a transcriptional activator of the structural genes involved in colanic acid biosynthesis.
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PMID:Nucleotide sequence of rmpB, a Klebsiella pneumoniae gene that positively controls, colanic biosynthesis in Escherichia coli. 206 79

A new gene whose product is required for the production of formate hydrogenlyase (FHL) has been identified in Escherichia coli. This gene, termed fhlB, maps between the frdA (94.4 min) and argI (96.6 min) genes on the E. coli chromosome and is transcribed in a clockwise direction toward argI. Biochemical analysis of an FhlB- mutant, strain SE-2011 [phi(fhlB-lacZ+)], revealed that the mutant lacks formate dehydrogenase activity associated with FHL (FDH-H) and hydrogenase activity. As a result of these defects, fermentative hydrogen production and hydrogen uptake reactions were undetectable in strain SE-2011. Fumarate reductase activity of this mutant was also reduced to about 15% of the levels of the parent (strain MC4100), and strain SE-2011 did not produce succinate as a fermentation end product. Regulation of expression of the fhlB gene, studied as production of beta-galactosidase activity by strain SE-2011, revealed that the operon is expressed at low levels under aerobic conditions. Under anaerobic growth conditions, this activity increased by two- to threefold. Addition of formate enhanced the differential rate of synthesis of the fhlB gene product to as high as 130 U of beta-galactosidase specific activity per microgram of cell protein, but only under anaerobic conditions. Formate-dependent expression of phi(fhlB-lacZ+) required the sigma 54 subunit of RNA polymerase and the fhlA gene product. The concentration of formate required for maximum expression of the fhlB gene was about 15 mM; this value decreased to about 3 mM in the presence of plasmid pSE-133, which carries the fhlA gene in a multicopy plasmid. DNA sequence analysis of the fhlA gene showed that the FhlA protein is 686 amino acids long and has an anhydrous molecular weight of 78,086. On the basis of sequence homology with other transcriptional activators such as NtrC, HydG, and Klebsiella pneumoniae NifA proteins, the FhlA protein was deduced to be a transcriptional activator controlling the production of FHL. It is proposed that formate interacts with the FhlA protein and that this active complex initiates transcription of the fhlB gene. The FhlA and FhlB proteins act as a cascade in regulating the production of FDH-H and the FHL-linked hydrogenase and ultimately the production of FHL and fermentative hydrogen.
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PMID:Genetic regulation of formate hydrogenlyase of Escherichia coli: role of the fhlA gene product as a transcriptional activator for a new regulatory gene, fhlB. 211 3

The influence of the Klebsiella pneumoniae nifL gene product upon the interaction of the transcriptional activator protein NifA with the nifH promoter has been examined using in vivo dimethylsulphate 'footprinting'. Binding of NifA to the upstream activator sequence (UAS) of the nifH promoter in the presence of the NifL protein was observed under nitrogen-limiting growth conditions. Growth in the presence of NH4+ or addition of NH4+ to nitrogen-limited cells diminished the interaction of NifA with the UAS when NifL was present. Repression of nif transcription by NifL may therefore involve an interaction between NifL and NifA which reduces the affinity of NifA for the UAS.
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PMID:The influence of the Klebsiella pneumoniae regulatory gene nifL upon the transcriptional activator protein NifA. 228 Jun 85

The nifA gene of Klebsiella pneumoniae, which encodes the transcriptional activator of nif gene expression, was cloned into a number of plasmid vectors to obtain high-level synthesis of nifA product (NifA). When over-produced, NifA was very insoluble and it precipitated with the cell debris after cell lysis. Localization of beta-galactosidase activity from a nifA-lacZ translational fusion confirmed the insoluble nature of NifA. Analysis of two translational fusions in which the last six C-terminal amino acids of NifA were deleted suggests that these residues are required for activity.
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PMID:Over-production and characterization of the nifA gene product of Klebsiella pneumoniae--the transcriptional activator of nif gene expression. 284 61

Primer-extension analysis of the Klebsiella pneumoniae nifH promoter was used to determine changes in the accessibility of the promoter DNA to methylation after exposure of growing cells to dimethyl sulfate. Four guanine residues present in the nifH upstream activator sequence (UAS), the proposed NifA binding site, were protected from methylation and two guanine residues were hypermethylated when the transcriptional activator protein NifA was present in the cells. The interaction detected at the nifH UAS was independent of the alternative sigma factor NtrA required for transcription of the nifH and other nif promoters. Mutations within the nifH UAS that diminish NifA-dependent transcriptional activation reduced the interaction at the UAS. It seems likely that the pattern of methylation protection observed in the nifH UAS is the result of NifA binding.
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PMID:NifA-dependent in vivo protection demonstrates that the upstream activator sequence of nif promoters is a protein binding site. 284 2

Using the mini-Mu-duction technique, we cloned the malA regions from Escherichia coli K-12 and Klebsiella pneumoniae. A comparison of the structures of the cloned DNAs indicated that the malT, malP, and malQ genes, encoding the transcriptional activator of the maltose regulon, maltodextrin phosphorylase, and amylomaltase, respectively, are similarly organized in both species; malP and malQ constitute an operon divergent from the malT gene. We sequenced 1,200 nucleotides encompassing the beginnings of the malT and malP genes, their promoters, and the intergenic region. The DNA sequences from the two species were very different; the levels of homology ranged from 28 to 80%, depending on the region. The sequences of the coding regions and of elements known to be important for the functions of these two promoters in E. coli were well conserved between the two bacteria, whereas the sequence of the malT-malP intergenic region had totally diverged.
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PMID:Comparison of the malA regions of Escherichia coli and Klebsiella pneumoniae. 294 64

We report that the ntrB and ntrC proteins of Bradyrhizobium sp. [Parasponia] strain RP501 share homology with other regulatory proteins. There is extensive conservation of C-terminal regions between products of RP501 ntrB; Klebsiella pneumoniae ntrB; Escherichia coli envZ, cpxA, and phoR; Agrobacterium tumefaciens virA; and, to a lesser extent, E. coli cheA. There is also extensive conservation of N-terminal regions between products of RP501 ntrC; K. pneumoniae ntrC; E. coli ompR, sfrA, phoB, cheY and cheB; Salmonella typhimurium cheB and cheY; Bacillus subtilis spoOA and spoOF; and A. tumefaciens virG. We propose that these regulatory genes comprise two-component regulatory systems that evolved from a common ancestral system that involved transduction of information about the status of the environment by one protein domain (the C-terminal regions conserved among ntrB, envZ, etc.) to a second one (the N-terminal region conserved among ntrC, ompR, etc.). The ntrC-set protein then acts upon a specific responding mechanism, typically as a transcriptional activator but also as an effector of the maturation of outer membrane proteins or as a modulator of the direction of flagella rotation.
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PMID:Two-component regulatory systems responsive to environmental stimuli share strongly conserved domains with the nitrogen assimilation regulatory genes ntrB and ntrC. 302 May 61

We have determined the nucleotide sequence of the xylR gene for a transcriptional activator for the degradative pathway of aromatic hydrocarbons on the TOL plasmid from Pseudomonas putida. The 1698-bp sequence for a 566-amino acid (aa) protein (Mr 63741) was identified as the XylR-encoding sequence. Three regions in XylR show homology to Klebsiella pneumoniae NtrC and NifA, both of which are transcriptional activators for the ntr and nif genes involved in the nitrogen metabolism. The central region of XylR (aa 234-473) corresponds to the region that was proposed to interact with RNA polymerase having a sigma factor, NtrA [Drummond et al., EMBO J. 5 (1986) 441-447]. The C-terminal region (aa 515-558) has a putative DNA-binding structure. A short segment proximal to the central region (aa 211-229) is thought to be an interdomain linker. No amino acid homology was found in the N-terminal regions among these proteins. These findings suggest the interaction of XylR with an NtrA in the transcriptional activation of the degradative pathway.
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PMID:Nucleotide sequence of the regulatory gene xylR of the TOL plasmid from Pseudomonas putida. 316 74

We have constructed mutations in what we predict to be the DNA-recognition helix of Klebsiella pneumoniae NtrC, which regulates transcription from promoters under global nitrogen control. Mutations which disrupt the helix lead to complete loss of function. All point mutants tested were able to activate transcription from the sigma 54-dependent glnA promoter, but only those retaining some ability to recognise NtrC binding sites, as evidenced by their ability to repress the ntrB promoter and the upstream glnA promoter, were able to activate the nifL promoter. One mutant, which contained an amino acid substitution in the turn of the DNA-binding motif as well as in the recognition helix, suppressed mutations in the NtrC binding sites upstream from the nifL promoter, but only if both sites bore equivalent transitions. This confirms that the DNA-binding motif for this class of transcriptional activator has been correctly identified and suggests that binding of NtrC can be cooperative.
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PMID:The effect on the function of the transcriptional activator NtrC from Klebsiella pneumoniae of mutations in the DNA-recognition helix. 328 38

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