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)

Phosphoribosyl diphosphate-lacking (delta prs) mutant strains of Escherichia coli require NAD, guanosine, uridine, histidine, and tryptophan for growth. NAD is required by phosphoribosyl diphosphate-lacking mutants because of lack of one of the substrates for the quinolinate phosphoribosyltransferase reaction, an enzyme of the NAD de novo pathway. Several NAD-independent mutants of a host from which prs had been deleted were isolated; all of them were shown to have lesions in the pstSCAB-phoU operon, in which mutations lead to derepression of the Pho regulon. In addition NAD-independent growth was dependent on a functional quinolinate phosphoribosyltransferase. The prs suppressor mutations led to the synthesis of a new phosphoryl compound that may act as a precursor for a new NAD biosynthetic pathway. This compound may be synthesized by the product of an unknown phosphate starvation-inducible gene of the Pho regulon because the ability of pst or phoU mutations to suppress the NAD requirement requires PhoB, the transcriptional activator of the Pho regulon.
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PMID:Phosphoribosyl diphosphate synthetase-independent NAD de novo synthesis in Escherichia coli: a new phenotype of phosphate regulon mutants. 855 May 5

Alginate production in mucoid Pseudomonas aeruginosa isolates from cystic fibrosis patients is under direct control by AlgU, the P. aeruginosa equivalent of the extreme heat shock sigma factor sigma(E) in gram-negative bacteria, and AlgR, a response regulator from the superfamily of two-component signal transduction systems. In this report, we describe the identification of the algZ gene, located immediately upstream of algR, which is involved in the control of alginate production. The predicted product of the algZ gene showed similarity to a subset of sensory components from the superfamily of signal transduction systems but lacked several of the highly conserved motifs typical of histidine protein kinases. Inactivation of algZ in the wild-type standard genetic strain PAO1 did not affect its nonmucoid morphology. However, inactivation of algZ in a mucoid mutant P. aeruginosa strain, which had AlgU freed from control by the anti-sigma factor MucA, resulted in increased alginate production under growth conditions which did not permit expression of mucoidy in the parental algZ+ strain. The observed effects were abrogated when algR was inactivated in the algZ::Tc(r) background. These findings indicate that algZ plays a regulatory role in alginate production, possibly interacting with AlgR, and that it may have negative effects on expression of the mucoid phenotype under the conditions tested. The presented results suggest that elements of negative regulation exist at the levels of both the alternative sigma factor AlgU and the transcriptional activator AlgR which, once relieved from that suppression, cooperate to bring about the expression of the alginate system.
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PMID:Identification of the algZ gene upstream of the response regulator algR and its participation in control of alginate production in Pseudomonas aeruginosa. 898 97

Previously, we demonstrated that ABP-1 (arylphorin gene-specific binding protein-1), which is suggested to be the transcriptional activator of the arylphorin gene of Sarcophaga peregrina, is present in NIH-Sape-4 cells, which do not express arylphorin. As well as ABP-1, these cells were found to contain another protein (ABP-2) that probably binds to the same sequence as that to which ABP-1 binds [Adachi, N., Kubo, T., and Natori, S. (1993) J. Biochem. 114, 55-60]. We purified ABP-2 from a nuclear extract of NIH-Sape-4 cells and compared its DNA-binding activity with that of ABP-1. Both ABP-1 and ABP-2 were found to bind to the same sequence in the arylphorin gene with the same affinity and stability, but an ABP-2-specific hypersensitive site was detected by DNase I footprinting analysis. Analyses of proteolytic fragments suggested that both ABP-1 and ABP-2 have Zn fingers showing high similarity with that of AEF-1, a transcriptional repressor of the Drosophila melanogaster alcohol dehydrogenase gene that binds to a sequence very similar to that binding ABP-1 and ABP-2. We isolated a candidate cDNA for ABP-2, and the protein it encoded contained nine Zn fingers and regions rich in alanine, glutamine, serine/threonine, glycine, histidine, and asparagine.
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PMID:Purification, characterization, and cDNA cloning of ABP-2 (arylphorin gene-specific binding protein-2) that specifically binds to the ABP-1-binding sequence in the arylphorin gene of Sarcophaga peregrina. 901 Jul 76

Heterologous complementation studies using Alcaligenes eutrophus H16 as a recipient identified a hydrogenase-specific regulatory DNA region on megaplasmid pHG21-a of the related species Alcaligenes hydrogenophilus. Nucleotide sequence analysis revealed four open reading frames on the subcloned DNA, designated hoxA, hoxB, hoxC, and hoxJ. The product of hoxA is homologous to a transcriptional activator of the family of two-component regulatory systems present in a number of H2-oxidizing bacteria. hoxB and hoxC predict polypeptides of 34.5 and 52.5 kDa, respectively, which resemble the small and the large subunits of [NiFe] hydrogenases and correlate with putative regulatory proteins of Bradyrhizobium japonicum (HupU and HupV) and Rhodobacter capsulatus (HupU). hoxJ encodes a protein with typical consensus motifs of histidine protein kinases. Introduction of the complete set of genes on a broad-host-range plasmid into A. eutrophus H16 caused severe repression of soluble and membrane-bound hydrogenase (SH and MBH, respectively) synthesis in the absence of H2. This repression was released by truncation of hoxJ. H2-dependent hydrogenase gene transcription is a typical feature of A. hydrogenophilus and differs from the energy and carbon source-responding, H2-independent mode of control characteristic of A. eutrophus H16. Disruption of the A. hydrogenophilus hoxJ gene by an in-frame deletion on megaplasmid pHG21-a led to conversion of the regulatory phenotype: SH and MBH of the mutant were expressed in the absence of H2 in response to the availability of the carbon and energy source. RNA dot blot analysis showed that HoxJ functions on the transcriptional level. These results suggest that the putative histidine protein kinase HoxJ is involved in sensing molecular hydrogen, possibly in conjunction with the hydrogenase-like polypeptides HoxB and HoxC.
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PMID:A hydrogen-sensing system in transcriptional regulation of hydrogenase gene expression in Alcaligenes species. 904 26

An Escherichia coli K-12 model system was developed for studying the VanS-VanR two-component regulatory system required for high-level inducible vancomycin resistance in Enterococcus faecium BM4147. Our model system is based on the use of reporter strains with lacZ transcriptional and translational fusions to the PvanR or PvanH promoter of the vanRSHAX gene cluster. These strains also express vanR and vanS behind the native PvanR promoter, the arabinose-inducible ParaB promoter, or the rhamnose-inducible PrhaB promoter. Our reporter strains have the respective fusions stably recombined onto the chromosome in single copy, thereby avoiding aberrant regulatory effects that may occur with plasmid-bearing strains. They were constructed by using allele replacement methods or a conditionally replicative attP plasmid. Using these reporter strains, we demonstrated that (i) the response regulator VanR activates PvanH, but not PvanR, expression upon activation (phosphorylation) by the partner kinase VanS, the noncognate kinase PhoR, or acetyl phosphate, indicating that phospho-VanR (P-VanR) is a transcriptional activator; (ii) VanS interferes with activation of VanR by PhoR or acetyl phosphate, indicating that VanS also acts as a P-VanR phosphatase; and (iii) the conserved, phosphate-accepting histidine (H164) of VanS is required for activation (phosphorylation) of VanR but not for deactivation (dephosphorylation) of P-VanR. Similar reporter strains may be useful in new studies on these and other interactions of the VanS-VanR system (and other systems), screening for inhibitors of these interactions, and deciphering the molecular logic of the signal(s) responsible for activation of the VanS-VanR system in vivo. Advantages of using an E. coli model system for in vivo studies on VanS and VanR are also discussed.
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PMID:Transcriptional regulation of the Enterococcus faecium BM4147 vancomycin resistance gene cluster by the VanS-VanR two-component regulatory system in Escherichia coli K-12. 929 51

The X protein (HBx) of the human Hepatitis B Virus (HBV) is a regulatory protein that exercises a transcriptional activator function on a variety of regulatory elements and is therefore considered to be involved in the development of human hepatocellular carcinoma (HCC). So far, most attempts at elucidating HBx function have been undertaken at the genetic level, reflecting the difficulties in detecting the very low amounts of the protein in infected livers. Consequently, the questions of intracellular localization and posttranslational modification have not yet been completely answered. We therefore constructed recombinant baculoviruses that allowed expression of HBx and the hexa histidine HBx fusion protein HBxHis in insect cells. Cell fractionation experiments revealed that only a minor part of HBx is detectable in a soluble form in the cytosolic fraction, whereas most of the protein forms intracellular aggregates. These results could be confirmed by confocal laser immunofluorescence. The fusion of a hexa-histidine tag to the amino terminus of HBx allowed a rapid one-step purification by metal chelate affinity chromatography. The detailed analysis of purified HBxHis using electrospray ionization mass spectrometry uncovered two major components: the unmodified, monomeric, fully oxidized form with five intramolecular disulfide bridges, and its N-acetylated modification. Additionally, two minor peaks with mass differences of delta m = +80 da suggested that a small fraction of HBx becomes posttranslationally phosphorylated in insect cells. No further modifications could be observed, indicating that only phosphorylation might play a role in a possible posttranslational regulation of this viral activator.
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PMID:Isolation and molecular characterization of hepatitis B virus X-protein from a baculovirus expression system. 932 33

AlcR is the transcriptional activator of the ethanol utilization pathway in Aspergillus nidulans. The zinc DNA-binding domain contains ligands of zinc, six cysteines (Zn2Cys6) or five cysteines and one histidine (Zn2Cys5His). The utilisation of complementary approaches such as X-ray absorption spectroscopy, mutational analysis, zinc content evaluation, determination of specific binding connecting structural and biological data, have allowed to determine zinc environment and to analyse the involvement of amino acids. The determination by EXAFS of zinc ligands (four sulphur atoms), the Zn content in the protein (2:1), the evaluation of the distance between two zinc atoms (3.16 +/- 0.02 angstroms), together with the total loss of specific DNA-binding activity when one cysteine ligand is mutated, are in favour of a zinc cluster model in which six cysteine sulphurs ligate two zinc atoms. XANES spectra of wild type and H10A AlcR protein are virtually identical indicating that Histidine 10 does not have a direct contribution in zinc ligation but electrophoretic mobility shift assays show that His10 is involved in DNA-binding. In contrast, proline 25 does not seem to play any direct role in the DNA-binding activity but XANES spectra of Pro25A AlcR protein are slightly modified comparing to the wild type protein spectra. This suggests a role of the proline in the stabilisation of the Zn cluster structure. AlcR DNA-binding domain belongs to the zinc binuclear class family (Zn2Cys6) with unique characteristics resulting from its primary and secondary structures and its binding specificity toward direct and inverted repeat target.
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PMID:First experimental evidence of a zinc binuclear cluster in AlcR protein, mutational and X-ray absorption studies. 943 11

In Saccharomyces cerevisiae, expression of the transcriptional activator GCN4 increases at the translational level in response to starvation for an amino acid. The products of multiple GCD genes are required for efficient repression of GCN4 mRNA translation under nonstarvation conditions. The majority of the known GCD genes encode subunits of the general translation initiation factor eIF-2 or eIF-2B. To identify additional initiation factors in yeast, we characterized 65 spontaneously arising Gcd- mutants. In addition to the mutations that were complemented by known GCD genes or by GCN3, we isolated mutant alleles of two new genes named GCD14 and GCD15. Recessive mutations in these two genes led to highly unregulated GCN4 expression and to derepressed transcription of genes in the histidine biosynthetic pathway under GCN4 control. The derepression of GCN4 expression in gcd14 and gcd15 mutants occurred with little or no increase in GCN4 mRNA levels, and it was dependent on upstream open reading frames (uORFs) in GCN4 mRNA that regulate its translation. We conclude that GCD14 and GCD15 are required for repression of GCN4 mRNA translation by the uORFs under conditions of amino acid sufficiency. The gcd14 and gcd15 mutations confer a slow-growth phenotype on nutrient-rich medium, and gcd15 mutations are lethal when combined with a mutation in gcd13. Like other known GCD genes, GCD14 and GCD15 are therefore probably required for general translation initiation in addition to their roles in GCN4-specific translational control.
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PMID:Identification of GCD14 and GCD15, novel genes required for translational repression of GCN4 mRNA in Saccharomyces cerevisiae. 953 20

In Saccharomyces cerevisiae the GCN4 gene encodes the transcriptional activator of the "general control" system of amino acid bioynthesis, a network of at least 12 different biosynthetic pathways. We characterized the consequences of the general control response upon the signal "amino acid starvation" induced by the histidine analogue 3-aminotriazole with respect to Gcn4p levels in more detail. Therefore, we established test systems to monitor the time course of different parameters, including GCN4 mRNA, Gcn4 protein, Gcn4p DNA binding activity, as well as Gcn4p transactivation ability. We observed a biphasic response of Gcn4p activity in the cell. At first, translation of GCN4 mRNA is induced within 20 min after switch to starvation conditions. However, an additional increase in GCN4 transcript steady state level was observed, leading to an additional second phase of GCN4 expression after 3-4 h of starvation. The DNA binding activity of Gcn4p, as well as the ability to activate transcription of target genes, correlate with the amount of Gcn4 protein in the cell, suggesting that under the tested conditions there is no additional regulation of DNA binding or transactivation ability of Gcn4p, respectively.
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PMID:Monitoring the Gcn4 protein-mediated response in the yeast Saccharomyces cerevisiae. 958 92

LevR, which controls the expression of the levoperon of Bacillus subtilis, is a regulatory protein containing an N-terminal domain similar to the NifA/NtrC transcriptional activator family and a C-terminal domain similar to the regulatory part of bacterial anti-terminators, such as BgIG and LicT. Here, we demonstrate that the activity of LevR is regulated by two phosphoenolpyruvate (PEP)-dependent phosphorylation reactions catalysed by the phosphotransferase system (PTS), a transport system for sugars, polyols and other sugar derivatives. The two general components of the PTS, enzyme I and HPr, and the two soluble, sugar-specific proteins of the lev-PTS, LevD and LevE, form a signal transduction chain allowing the PEP-dependent phosphorylation of LevR, presumably at His-869. This phosphorylation seems to inhibit LevR activity and probably regulates the induction of the lev operon. Mutants in which His-869 of LevR has been replaced with a non-phosphorylatable alanine residue exhibited constitutive expression from the lev promoter, as do levD or levE mutants. In contrast, PEP-dependent phosphorylation of LevR in the presence of only the general components of the PTS, enzyme I and HPr, regulates LevR activity positively. This phosphorylation most probably occurs at His-585. Mutants in which His-585 has been replaced with an alanine had lost stimulation of LevR activity and PEP-dependent phosphorylation by enzyme I and HPr. This second phosphorylation of LevR at His-585 is presumed to play a role in carbon catabolite repression.
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PMID:Antagonistic effects of dual PTS-catalysed phosphorylation on the Bacillus subtilis transcriptional activator LevR. 962 54

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