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)

The IciA protein from Escherichia coli has been shown specifically to inhibit the in vitro initiation of chromosomal DNA replication. However, the in vivo role of IciA has not yet been established. In order to investigate the in vivo function of this protein, expression of the iciA gene was studied by monitoring the beta-galactosidase activity specified by an iciA promoter-lacZ fusion inserted into the chromosome. Among the conditions tested (carbon starvation, the stringent response, phosphate starvation, and the SOS response), only phosphate depletion increased iciA expression. Supplementation of phosphate-depleted cultures with inorganic phosphate reduced the beta-galactosidase activity to basal levels. Enhanced expression of iciA-lacZ was dependent upon the PhoB protein. PhoB is known to be a transcriptional activator of the Pho regulon, expression of which is activated during phosphate starvation. It was also found that the iciA promoter contains a PhoB protein-binding sequence, termed the Pho box, which is necessary for the activation of genes of the Pho regulon. These results suggest that the iciA gene is a member of the Pho regulon.
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PMID:PhoB-dependent transcriptional activation of the iciA gene during starvation for phosphate in Escherichia coli. 1058 31

Expression of Proteus mirabilis urease is governed by UreR, an AraC-like positive transcriptional activator. A poly(A) tract nucleotide sequence, consisting of A(6)TA(2)CA(2)TGGTA(5)GA(6)TGA(5), is located 16 bp upstream of the sigma(70)-like ureR promoter P2. Since poly(A) tracts of DNA serve as binding sites for the gene repressor histone-like nucleoid structuring protein (H-NS), we measured beta-galactosidase activity of wild-type Escherichia coli MC4100 (H-NS(+)) and its isogenic derivative ATM121 (hns::Tn10) (H-NS(-)) harboring a ureR-lacZ operon fusion plasmid (pLC9801). beta-Galactosidase activity in the H-NS(-) host strain was constitutive and sevenfold greater (P < 0.0001) than that in the H-NS(+) host. A recombinant plasmid containing cloned P. mirabilis hns was able to complement and restore repression of the ureR promoter in the H-NS(-) host when provided in trans. Deletion of the poly(A) tract nucleotide sequence from pLC9801 resulted in an increase in beta-galactosidase activity in the H-NS(+) host to nearly the same levels as that observed for wild-type pLC9801 harbored by the H-NS(-) host. Urease activity in strains harboring the recombinant plasmid pMID1010 (encoding the entire urease gene cluster of P. mirabilis) was equivalent in both the H-NS(-) background and the H-NS(+) background in the presence of urea but was eightfold greater (P = 0.0001) in the H-NS(-) background in the absence of urea. We conclude that H-NS represses ureR expression in the absence of urea induction.
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PMID:H-NS is a repressor of the Proteus mirabilis urease transcriptional activator gene ureR. 1076 73

Recent research in various areas has appreciably expanded our knowledge of streptokinase, a plasminogen activator produced by all human group A (GAS), group C (GCS), and group G (GGS) streptococci. Several molecular genetic approaches are described here to study the expression of the streptokinase gene, skn. Southern hybridization analysis demonstrated homology of synteny of ska, skc, and skg in the genomes of the above serogroups. S1 nuclease mapping, the use of transcriptional fusions to beta-galactosidase and luciferase reporter genes, in conjunction with site-directed mutagenesis, led to the localization of the core promoter region of skc and the identification of a cis-active upstream region required for full promoter activity. Circular permutation analysis of the promoter upstream region identified an intrinsic DNA bending locus as the pivotal DNA element stimulating the activity of the core promoter. The detection of skn allele-specific expression phenotypes, which proved not to be due to different skn mRNA half-lives, prompted allele swap experiments, showing that promoter activity is dictated by the host genetic background, rather than the sequence of the regulatory region. These findings suggest the involvement in skn expression of an as yet unidentified transcriptional activator that contacts the bent DNA region. Transcription termination of skc is directed by a bidirectional terminator whose structural requirements for termination efficiency were determined with base substitution mutants fused to a chloramphenicol acetyl transferase reporter. Finally, mutagenic plasmids are described for insertion-duplication and allele replacement mutagenesis of the skn locus.
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PMID:Expression and regulation of the streptokinase gene. 1081 72

Ssu1p, a plasma membrane protein involved in sulphite metabolism in Saccharomyces cerevisiae, was found to be required for efficient sulphite efflux. An SSU1 null mutant accumulated significantly more sulphite than wild-type, whereas cells expressing multicopy SSU1 accumulated significantly less. Cells expressing FZF1-4, a dominant allele of a transcriptional activator of SSU1 that confers sulphite resistance, also accumulated less sulphite. beta-galactosidase activity in the FZF1-4 strain carrying an SSU1::lacZ fusion was found to be 8.5-fold higher than in a strain carrying wild-type FZF1, confirming that the heightened resistance was correlated with hyperactivation of SSU1. Multicopy SSU1 was also found to increase the sulphite resistance of a number of unrelated sulphite-sensitive strains by a factor of 3- to 8-fold. Rates of efflux of free sulphite from cells expressing multicopy SSU1 or FZF1-4 were significantly greater than that from wild-type or from a SSU1 null mutant. Rates of efflux of bound sulphite from wild-type, a SSU1 null mutant, a FZF1-4 mutant, or cells expressing multicopy SSU1 were not significantly different, suggesting that Ssu1p specifically mediates efflux of the free form of sulphite.
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PMID:SSU1 mediates sulphite efflux in Saccharomyces cerevisiae. 1087 99

A hybrid promoter consisting of the in tandem fusion of the Tn5 nptII and the Klebsiella pneumoniae nifH promoters was constructed to study the functionality of the nif genes transcriptional activator NifA from Bradyrhizobium japonicum in two different host bacteria. beta-galactosidase experiments in E. coli revealed that the hybrid nptII-nifH promoter can behave as a constitutive or a NifA-inducible promoter depending on the aeration conditions. Expression of the B. japonicum NifA from the hybrid nptII-nifH promoter (plasmid pBPF204) induced "in trans" lacZ transcription from the Azotobacter chroococcum nifH promoter in E. coli and A. diazotrophicus cells grown at low pO2. Similarly, the plasmid pBPF204 increased nitrogenase activity in A. diazotrophicus cells grown under microaerobic conditions. Based on these results, we suggest that the B. japonicum NifA could function as an efficient O2-sensitive transcriptional activator of nif genes in genetically distant diazotrophic bacteria.
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PMID:Functional Bradyrhizobium japonicum NifA expression under a hybrid nptII-nifH promoter in E. coli and Acetobacter diazotrophicus SRT4. 1093 42

A novel system that leaks beta-galactosidase (beta-gal) without a requirement for secretion or export signals was developed in Lactococcus lactis by controlled expression of integrated phage holin and lysin cassettes. The late promoter of the lytic lactococcal bacteriophage phi31 is an 888-bp fragment (P(15A10)) encoding the transcriptional activator. When a high-copy-number P(15A10)::lacZ.st fusion was introduced into L. lactis strains C10, ML8, NCK203, and R1/r1t, high levels of the resultant beta-gal activity were detected in the supernatant (approximately 85% of the total beta-gal activity for C10, ML8, and NCK203 and 45% for R1/r1t). Studies showed that the phenotype resulted from expression of Tac31A from the P(15A10) fragment, which activated a homologous late promoter in prophages harbored by the lactococcal strains. Despite the high levels of beta-gal obtained in the supernatant, the growth of the strains was not significantly affected, nor was there any evidence of severe membrane damage as determined by using propidium iodide or transmission electron microscopy. Integration of the holin-lysin cassette of phage r1t, under the control of the phage phi31 late promoter, into the host genome of MG1363 yielded a similar "leaky" phenotype, indicating that holin and lysin might play a critical role in the release of beta-gal into the medium. In addition to beta-gal, tetanus toxin fragment C was successfully delivered into the growth medium by this system. Interestingly, the X-prolyl dipeptidyl aminopeptidase PepXP (a dimer with a molecular mass of 176 kDa) was not delivered at significant levels outside the cell. These findings point toward the development of bacterial strains able to efficiently release relevant proteins and enzymes outside the cell in the absence of known secretion and export signals.
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PMID:Leaky Lactococcus cultures that externalize enzymes and antigens independently of culture lysis and secretion and export pathways. 1113 53

The DPP1 gene, encoding diacylglycerol pyrophosphate (DGPP) phosphatase from Saccharomyces cerevisiae, has recently been identified as a zinc-regulated gene, and it contains a putative zinc-responsive element (UAS(ZRE)) in its promoter. In this work we examined the hypothesis that expression of DGPP phosphatase was regulated by zinc availability. The deprivation of zinc from the growth medium resulted in a time- and dose-dependent induction of beta-galactosidase activity driven by a P(DPP1)-lacZ reporter gene. This regulation was dependent on the UAS(ZRE) in the DPP1 promoter and was mediated by the Zap1p transcriptional activator. Induction of the DGPP phosphatase protein and activity by zinc deprivation was demonstrated by immunoblot analysis and measurement of the dephosphorylation of DGPP. The regulation pattern of DGPP phosphatase in mutants defective in plasma membrane (Zrt1p and Zrt2p) and vacuolar membrane (Zrt3p) zinc transporters indicated that enzyme expression was sensitive to the cytoplasmic levels of zinc. DGPP phosphatase activity was inhibited by zinc by a mechanism that involved formation of DGPP-zinc complexes. Studies with well characterized subcellular fractions and by indirect immunofluorescence microscopy revealed that the DGPP phosphatase enzyme was localized to the vacuolar membrane.
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PMID:Regulation of the Saccharomyces cerevisiae DPP1-encoded diacylglycerol pyrophosphate phosphatase by zinc. 1113 91

SoxS is the direct transcriptional activator of at least 15 genes of the Escherichia coli superoxide regulon. SoxS is small (107 amino acids), binds DNA as a monomer and recognizes a highly degenerate DNA binding site, termed 'soxbox'. Like other members of the AraC/XylS family, SoxS has two putative helix-turn-helix (HTH) DNA-binding motifs, and it has been proposed that each HTH motif recognizes a highly conserved recognition element of the soxbox. To determine which nucleotides are important for SoxS binding, we conducted a systematic mutagenesis of the DNA binding sites for SoxS in the zwf and fpr promoters and determined the effect of the soxbox mutations on SoxS DNA binding and transcription activation in vivo by measuring beta-galactosidase activity in strains with fusions to lacZ. We found that the sequences GCAC and CAAA, termed recognition elements 1 and 2 (RE 1 and RE 2), respectively, are critical for SoxS binding, as mutations within these elements severely hinder or eliminate SoxS-dependent transcription activation; substitutions within RE 2 (CAAA), however, are tolerated better than changes within RE 1 (GCAC). Although substitutions at the seven positions separating the two REs had only a modest effect on SoxS binding, AT basepairs were favoured within this 'spacer' region, presumably because, by facilitating DNA bending, they help bring the two recognition elements into proper juxtaposition. We also found that the 'invariant A' present at position 1 of 14/15 functional soxboxes identified thus far is important for SoxS binding, as a change to any other nucleotide at this position reduced SoxS-dependent transcription by approximately 50%. In addition, positions surrounding the REs seem to show a context effect, in that certain substitutions there have little or no effect when the RE has the optimal binding sequence, but produce a pronounced effect when the RE has a suboptimal sequence. We propose that these nucleotides play an important role in effecting differential expression from the various promoters. Lastly, we used gel retardation assays to show that alterations in transcription activation in vivo are caused by effects on DNA binding. Based on this exhaustive mutagenesis, we propose the following optimal sequence for SoxS binding: AnVGCACWWWnKRHCAAAHn (n = A, C, G, T; V = A, C, G; W = A, T; K = G, T; R = A, G; H = A, C, T).
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PMID:Systematic mutagenesis of the DNA binding sites for SoxS in the Escherichia coli zwf and fpr promoters: identifying nucleotides required for DNA binding and transcription activation. 1140 18

Retroviruses are currently the most widely used vectors in clinical trials for gene therapy. These vectors are, however, limited by low titres partly due to the restrictive nature of monolayer cell culture. We have developed a stable suspension producer cell line derived from human lymphoblastoid cells (WIL-2) by electroporating these cells with the necessary trans components required for production of defective retrovirus particles which encode a nuclear localising beta-galactosidase gene. We show that this anchorage-independent cell line generates viruses at a titre of 7 x 10(5) iu/ml on NIH3T3 indicator cells which remains constant after at least 2 months in culture. The producer cells can be cultured at a density of 6 x 10(6) cells/ml with consistent virus titre production. WIL-2 can also be grown as single cells by rotation culture while maintaining virus production. By treating the cells with the transcriptional activator sodium butyrate titres above 1 x 10(6) i.u./ml are achieved. Concentrating viral supernatants by ultrafiltration can further increase virus titre to 5 x 10(8) i.u./ml. Even at these high titres no replication-competent virus was detected. Virus titre fell only slightly when cells were placed in serum-free media before harvest. The generation of this novel cell line provides proof-of-principle that large-scale production of retroviral vectors in serum-free growth conditions can be safely generated for use in gene therapy.
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PMID:A novel human suspension culture packaging cell line for production of high-titre retroviral vectors. 1140 64

The bgaH reading frame encoding a beta-galactosidase of 'Haloferax alicantei' was used as a reporter gene to investigate three different promoter regions derived from gvpA genes of Haloferax mediterranei (mc-gvpA) and Halobacterium salinarum (c-gvpA and p-gvpA) in Haloferax volcanii transformants. The fusion of bgaH at the start codon of each gvpA reading frame (A1-bgaH fusion genes) caused translational problems in some cases. Transformants containing constructs with fusions further downstream in the gvpA reading frame (A-bgaH) produced beta-galactosidase, and colonies on agar plates turned blue when sprayed with X-Gal. The beta-galactosidase activities quantified by standard ONPG assays correlated well with the mRNA data determined with transformants containing the respective gvpA genes: the cA-bgaH fusion gene was completely inactive, the mcA-bgaH transformants showed low amounts of products, whereas the pA-bgaH fusion gene was constitutively expressed in the respective transformants. The transcription of each A-bgaH gene was activated by the homologous transcriptional activator protein GvpE. The cGvpE, pGvpE and mcGvpE proteins were able to activate the promoter of pA-bgaH and mcA-bgaH, whereas the promoter of cA-bgaH was only activated by cGvpE. Among the three GvpE proteins tested, cGvpE appeared to be the strongest transcriptional activator.
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PMID:Use of a halobacterial bgaH reporter gene to analyse the regulation of gene expression in halophilic archaea. 1142 52

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