EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cells of Pseudomonas aeruginosa secrete a fluorescent yellow-green siderophore, pyoverdine, when grown under iron-deficient conditions. We describe here the cloning and characterization of a gene, pvdS, which is required for this process. The pvdS gene is required for expression from promoters of at least two pyoverdine synthesis genes and can cause expression from these promoters in Escherichia coli, where they are otherwise inactive. Sequencing of pvdS revealed that it is a member of a subfamily of RNA polymerase sigma factors which direct the synthesis of extracellular products by bacteria. The pvdS gene is expressed only in iron-starved bacteria, and in E. coli cells at least, expression is regulated by the Fur repressor protein. We propose that in iron-rich cells of P. aeruginosa, Fur binds to the pvdS promoter and prevents expression of the gene; under conditions of iron starvation, repression is relieved and PvdS is made, reprogramming the cells for pyoverdine synthesis.
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PMID:Cloning and characterization of pvdS, a gene required for pyoverdine synthesis in Pseudomonas aeruginosa: PvdS is probably an alternative sigma factor. 775 Dec 84

The bacteriophage lambda repressor protein can activate or repress transcription. Amino-acid substitutions in the sigma subunit of RNA polymerase affect repressor-stimulated transcription, shedding light on the activation process.
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PMID:Transcriptional activation. How lambda repressor talks to RNA polymerase. 792 60

We have used a sequence-specific DNA binding protein to examine transcription elongation and termination by mammalian RNA polymerase III (polIII). The Escherichia coli lac repressor protein, bound to its cognate operator site positioned between the 3' end of the coding region and the termination site of a human tRNA gene, conditionally blocked transcription elongation by polIII in vitro in HeLa cell nuclear extracts. Arrest of elongation by polIII dramatically reduced overall levels of transcription and directed the synthesis of shortened transcripts, consistent with a block to polIII elongation at the boundary of the repressor/DNA complex. Removal of template-bound repressor with the allosteric inducer isopropylthio-beta-D-galactoside (IPTG) allowed extension of nascent transcripts and restored transcriptional activity. Moreover, a subset of transcription complexes were shown to be capable of transcribing through the repressor obstacle. lac repressor positioned just downstream of the natural termination site effected the premature termination of transcription but otherwise had no affect on the overall level of transcription. Our findings demonstrate that elongation and termination by mammalian polIII can be modulated in vitro by a heterologous sequence-specific DNA binding protein. Moreover, the ability to selectivity arrest elongation by polIII at defined positions within the tRNA gene transcription unit has permitted the identification of discrete functional properties of paused mammalian polIII ternary complexes.
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PMID:RNA chain elongation and termination by mammalian RNA polymerase III. Analysis of tRNA gene transcription by imposing a reversible factor-mediated block to elongation using a sequence-specific DNA binding protein. 799 Jan 36

The expression regulation of spvR, a regulatory gene on the virulence plasmid (pKDSC50) of Salmonella choleraesuis serovar Choleraesuis, was investigated by spvR-lacZ translational fusion. The spvR gene was found to be positively regulated by its own product, the SpvR protein, and this unusual positive autoregulation was repressed by the products of spvA and spvB, virulence-associated genes present downstream from the spvR gene. Amino acid sequence analysis revealed that the amino-terminal region of SpvB had homology with the CatM repressor protein of Acinetobacter calcoaceticus, which belongs to the MetR/LysR protein family. On the other hand, the sigma factor RpoS was required for expression of the spvR gene in the stationary phase of bacterial growth. The SpvR protein was also necessary for self-activation, suggesting that an RNA polymerase holoenzyme containing RpoS requires SpvR protein in order to recognize the spvR promoter.
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PMID:Regulation of spvR gene expression of Salmonella virulence plasmid pKDSC50 in Salmonella choleraesuis serovar Choleraesuis. 805 29

An oligonucleotide containing the recognition site for the Escherichia coli lac repressor was inserted at various positions in the 5' flanking region of a human serine tRNA gene, and the consequences of binding lac repressor on in vitro transcription by RNA polymerase III were investigated. lac repressor prebound to operator sites centered at positions -9, -15, -35, and -37 upstream of the mature tRNA coding region completely inhibited transcription by interfering with the formation or stability of transcription complexes. lac repressor also inhibited transcription of tDNA derivatives containing operator sites at -9 and -15 when added following assembly of transcription complexes or during ongoing synthesis, but had no effects on the other tDNA derivatives if added subsequent to complex assembly. lac repressor prebound at position -43 and -46 partially inhibited transcription and redirected initiation to sites farther downstream. These effects required the continued presence of bound repressor protein. Our findings demonstrate that the human RNA polymerase III transcription complex extends at least 35 nucleotides upstream of the coding region and suggest that the spatial constraints imposed by a protein bound this far upstream can alter start site selection. Moreover, the flanking region encompassing the transcription start site remains accessible to DNA-binding proteins following assembly of the initiation complex and throughout multiple rounds of transcription.
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PMID:Upstream interactions of functional mammalian tRNA gene transcription complexes probed using a heterologous DNA-binding protein. 806 24

Previously we have shown that the RNA polymerase I (Pol I)-specific transcription factor UBF stimulates transcription by both facilitating transcription complex formation and by relieving repression exerted by a negative-acting factor which competes for binding of the murine factor TIF-IB to the ribosomal gene promoter (1). We have purified and functionally characterized this repressor protein from Ehrlich ascites cells. The final preparation contained two polypeptides with molecular masses of 75 and 90 kDa, respectively. Both polypeptides interact with the rDNA promoter as revealed by UV-crosslinking experiments. The specificity of binding to the ribosomal gene promoter was demonstrated in an electrophoretic mobility shift assay and by DNase footprinting. The biochemical properties of this negative-acting factor closely resemble those of the Ku antigen, a human nuclear DNA-binding heterodimer which is the target of autoantibodies in several autoimmune diseases. Anti-Ku antibodies precipitate the repressor activity and overcome transcription inhibition. The data demonstrate that regulation of Pol I gene transcription may involve an antirepression mechanism as already documented for Pol II genes and suggest that Ku protein may be causally involved in repressor-mediated down regulation of rRNA synthesis.
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PMID:The nucleolar transcription activator UBF relieves Ku antigen-mediated repression of mouse ribosomal gene transcription. 850 46

Multiprotein complexes regulate the transcription of certain bacterial genes in a sensitive, physiologically responsive manner. In particular, the transcription of genes needed for utilization of nucleosides in Escherichia coli is regulated by a repressor protein, CytR, in concert with the cyclic AMP (cAMP) activated form of cAMP receptor protein (CRP). We studied this regulation by selecting and characterizing spontaneous constitutive mutations in the promoter of the udp (uridine phosphorylase) gene, one of the genes most strongly regulated by CytR. We found deletions, duplications, and point mutations that affect key regulatory sites in the udp promoter, insertion sequence element insertions that activated cryptic internal promoters or provided new promoters, and large duplications that may have increased expression by udp gene amplification. Unusual duplications and deletions that resulted in constitutive udp expression that depended on the presence of CytR were also found. Our results support the model in which repression normally involves the binding of CytR to cAMP-CRP to form a complex which binds to specific sites in the udp promoter, without direct interaction between CytR protein and a specific operator DNA sequence, and in which induction by specific inducer cytidine involves dissociation of CytR from cAMP-CRP and the RNA polymerase interaction with cAMP-CRP bound to a site upstream of then transcription start point. The stimulation of udp expression by CytR in certain mutants may reflect its stabilization of cAMP-CRP binding to target DNA and illustrates that only modest evolutionary changes could allow particular multiprotein complexes to serve as either repressors or transcriptional activators.
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PMID:Analysis of CRP-CytR interactions at the Escherichia coli udp promoter. 862 89

The human immunodeficiency virus type 1 transactivator protein, Tat, stimulates transcriptional elongation from the viral long terminal repeat. To test whether Tat associates directly with activated transcription complexes, we have used the lac repressor protein (LacR) to "trap" elongating RNA polymerases. The arrested transcription complexes were purified by binding biotinylated templates to streptaviridin-coated magnetic beads. Transcription complexes were released from the magnetic beads following cleavage of the templates with restriction enzymes and were immunoblotted with antibodies to Tat, LacR and RNA polymerase II. The Tat protein copurified with RNA polymerase bound to wild-type templates but did not copurify with transcription complexes prepared by using templates carrying mutations in the transactivation response element (TAR) RNA. We conclude that Tat and cellular cofactors become attached to the transcription complex during its transit through TAR.
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PMID:Human immunodeficiency virus type-1 Tat is an integral component of the activated transcription-elongation complex. 863 4

The Streptomyces reticuli cellulase (Cell, Avicelase) hydrolyzes crystalline cellulose (Avicel) efficiently to cellobiose. The synthesis of the enzyme is induced by Avicel and repressed by glucose. DNA-binding proteins were purified from induced S. reticuli mycelia by affinity chromatography using the upstream region of the cell gene linked to Sepharose. The enriched protein(s) provoked a gel electrophoresis mobility shift of the upstream region, irrespective of the presence or absence of a 14-bp palindromic sequence, and enhanced the transcription of the cell gene by the S. reticuli RNA polymerase in vitro. The binding site (GTGACTGAGCGCCG) for the protein(s) was located in the vicinity of a DNA bend upstream of the transcriptional start site. Results of physiological studies, deletion and gel-shift analyses lead to the conclusion that a 14-bp palindrome (TGGGAGCGCTCCCA)--situated between the transcriptional start site and the structure gene--is the operator for a repressor protein. The data presented suggest that the two identified cis-acting elements, in cooperation with an activator and a repressor, mediate regulation of cell transcription.
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PMID:The synthesis of the Streptomyces reticuli cellulase (avicelase) is regulated by both activation and repression mechanisms. 866 29

Recently, a novel type of regulatory mutation causing differential effects on the expression of virulence genes due to a slight overexpression of the RNA polymerase alpha subunit (RpoA) was found in Bordetella pertussis (N. H. Carbonetti, T. M. Fuchs, A. A. Patamawenu, T. J. Irish, H. Deppisch, and R. Gross, J. Bacteriol. 176:7267-7273, 1994). To gather information on the molecular events behind this phenomenon, we isolated suppressor mutants of the RpoA-overexpressing strains after random mutagenesis. Genetic characterization of these suppressor strains revealed the existence of at least three distinct groups of dominant alleles. Mutations occurred either in the rpoA locus itself, in the bvg locus, or in unknown gene loci. One mutant of the latter group was further characterized. By the introduction of a cosmid library containing genomic B. pertussis DNA into this suppressor strain, we isolated a cosmid which suppressed the phenotype of the suppressor strain, thus restoring the negative effect on transcription of the ptx and cya toxin genes. Mutagenesis of the cosmid with Tn5 led to the identification of the gene locus responsible for this phenomenon. Its DNA sequence revealed the presence of an open reading frame (ORF) consisting of 2,373 bp coding for a hypothetical 86-kDa protein with extensive sequence similarities to ORFs with not yet identified functions of Escherichia coli, Haemophilus influenzae, and Neisseria meningitidis. The new gene, termed tex, for toxin expression, seems to be an essential factor for B. pertussis, as it cannot be deleted from the bacterial chromosome. All members of this new protein family show significant sequence similarities with the mannitol repressor protein MtlR and with the presumptive RNA-binding domains of the Pnp and ribosomal S1 proteins of E. coli in their N- and C-terminal parts, respectively. These sequence similarities and the fact that the tex gene was isolated by virtue of its effects on gene expression in B. pertussis indicate that the members of this new protein family may play an important role in the transcription machinery of prokaryotic organisms.
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PMID:A new gene locus of Bordetella pertussis defines a novel family of prokaryotic transcriptional accessory proteins. 875 71

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