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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)

The Escherichia coli treA gene encodes an osmotically inducible periplasmic trehalase. A strain carrying a treA-lacZ transcriptional fusion was constructed. The beta-galactosidase activity produced in this strain growing exponentially in a medium of high osmotic pressure was 10-fold higher than that produced in a medium of low osmotic pressure, demonstrating that treA transcription is osmotically inducible. treA transcriptional induction depends neither on the presence of trehalase itself nor on the synthesis of cytoplasmic trehalose which occurs in response to osmotic stress in wild-type E. coli strains. The treA promoter was identified by S1 nuclease protection. Deletion analysis demonstrated that sequences sufficient for the osmotic induction lie downstream from nucleotide -40 with respect to the transcription start. Transcription initiation at treAp required the presence of a functional sigma 70 subunit of RNA polymerase. treA expression was increased in the presence of a mutation in osmZ, which was previously identified as leading to a partially constitutive expression of the osmotically inducible proU operon.
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PMID:Osmotic induction of the periplasmic trehalase in Escherichia coli K12: characterization of the treA gene promoter. 171 Jul 60

We have used photoaffinity labelling to examine the chloroplast RNA polymerase components which come into contact with nascent transcripts during the in vitro transcription of plastid DNA. The transcripts were synthesized in the presence of a photoactive analogue (4-thio UTP) and alpha-32P-ATP, using enriched pea chloroplast RNA polymerase preparation and a recombinant plasmid containing the plastid 16S rRNA promoter. Brief irradiation of the transcriptional complex crosslinked the photoactive nascent RNA to proximal proteins. Labelling of the transcriptional complex was dependent on 4-thio UTP and template DNA. Two polypeptides of 51 and 54 kDa were consistently crosslinked to the nascent transcripts; about 60% of the total radioactivity of the crosslinked RNA was associated with these polypeptides. In some experiments, two additional polypeptides of 38 and 75 kDa were also found to be associated with about 13% and 17% of the total crosslinked RNA radioactivity, respectively. The UV-crosslinked transcriptional complexes were stable to either DNase or S1 nuclease hydrolysis but partially sensitive to RNase T1. Insensitivity of the complex to hydrolysis with RNase H suggested that the nascent transcripts were not crosslinked to the template. The complexes could also be hydrolysed by proteinase K and thermolysin. No crosslinkage was observed when labelled RNA molecules containing 4-thio UMP residues were added after synthesis to the polymerase preparation. This suggested that the method identified only those polypeptides which came into close contact with the transcript during its synthesis. Antibodies raised against the RNA-protein complex confirmed the presence of the polypeptides in the chloroplast RNA polymerase preparation on Western blots. Preincubation of these antibodies with the chloroplast RNA polymerase inhibited plastid DNA transcription. These data showed that the transcript-binding polypeptides were functional components of the chloroplast transcriptional complex.
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PMID:Photoaffinity labelling of the pea chloroplast transcriptional complex by nascent RNA in vitro. 171 36

We have investigated the organization and expression of the Caulobacter crescentus flbF gene because it occupies a high level in the flagellar gene regulatory hierarchy. The nucleotide sequence comprising the 3' end of the flaO operon and the adjacent flbF promoter and structural gene was determined, and the organization of transcription units within this sequence was investigated. We located the 3' ends of the flaO operon transcript by using a nuclease S1 protection assay, and the 5' end of the flbF transcript was precisely mapped by primer extension analysis. The nucleotide sequence upstream from the 5' end of the flbF transcript contains -10 and -35 elements similar to those found in promoters transcribed by sigma 28 RNA polymerase in other organisms. Mutations that changed nucleotides in the -10 or -35 elements or altered their relative spacing resulted in undetectable levels of flbF transcript, demonstrating that these sequences contain nucleotides essential for promoter function. We identified a 700-codon open reading frame, downstream from the flbF promoter region, that was predicted to be the flbF structural gene. The amino-terminal half of the FlbF amino acid sequence contains eight hydrophobic regions predicted to be membrane-spanning segments, suggesting that the FlbF protein may be an integral membrane protein. The FlbF amino acid sequence is very similar to that of a transcriptional regulatory protein called LcrD that is encoded in the highly conserved low-calcium-response region of virulence plasmid pYVO3 in Yersinia enterocolitica (A.-M. Viitanen, P. Toivanen, and M. Skurnik, J. Bacteriol. 172:3152-3162, 1990).
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PMID:Characterization of the Caulobacter crescentus flbF promoter and identification of the inferred FlbF product as a homolog of the LcrD protein from a Yersinia enterocolitica virulence plasmid. 173 19

The transcription start points (tsp) of seven genes of Anabaena 7120 were previously identified by S1 nuclease protection and primer extension experiments using RNA extracted from cells. In the present work, these tsp were confirmed, with one exception, by in vitro transcription using purified RNA polymerases of Anabaena 7120 and Escherichia coli, and crude extracts of Anabaena 7120 active in transcription. In all cases, the template for transcription consisted of closed circular plasmid DNA in which the putative promoter-containing fragment was cloned in front of a strong terminator, which resulted in defined 'pseudo-runoff' transcripts whose sizes correspond (with one exception) to those expected on the basis of the tsp determined for in vivo RNA. These results, together with others obtained with templates containing bacteriophage T4 or cyanophage N1 promoters, led to the conclusion that the principal Anabaena 7120 RNA polymerase prefers promoters whose sequence and spacing approximate that of the E. coli consensus promoter, and that the Anabaena 7120 genes expressed in vegetative cells, characterized to date, have relatively weak promoters.
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PMID:Promoter recognition by the RNA polymerase from vegetative cells of the cyanobacterium Anabaena 7120. 193 7

In vitro studies have demonstrated that the estrogen receptor (ER) can bind to the rat PRL estrogen response element (ERE) located 1700 basepairs upstream of the transcriptional start site. However, the mechanism by which the receptor-DNA complex influences the activity of RNA polymerase located in the promoter region is not understood. To begin investigating this process, we developed cell lines derived from GH3 cells that contain steroid-responsive bovine papillomavirus minichromosomes. Within these minichromosomes is a hybrid gene composed of the 5' flanking region of the PRL gene, driving the expression of the Tn5 gene. The episomal PRL DNA sequences responded to 17 beta-estradiol (E2) by increasing the rate of Tn5 gene transcription. Nucleosome mapping experiments using micrococcal nuclease demonstrated that nucleosome-like structures were assembled on the minichromosome in an ordered array separated by 150-200 basepairs of DNA. Novel S1 nuclease as well as DNase-I-hypersensitive sites in the chromatin of the promoter and distal regulatory regions of the episomal PRL gene were detected by indirect end-labeling studies. The nuclease hypersensitive sites in the distal region containing the ERE were modified after treatment of the cells with either E2 or the antiestrogen 4-hydroxytamoxifen. However, only E2 treatment of cells resulted in an increase in the nuclease hypersensitivity of the promoter region and induced gene expression, while antiestrogen treatment had no effect on either parameter. This suggests that complex interactions between factors located at the distal and proximal regulatory regions ultimately determine the transcriptional response of the PRL gene to E2.
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PMID:An interaction between the 5' flanking distal and proximal regulatory domains of the rat prolactin gene is required for transcriptional activation by estrogens. 196 74

The promoter, operator, and 5' and 3' ends of the mRNA of the Escherichia coli gene aroG (encoding the phenylalanine-sensitive 3-deoxy-arabinoheptulosonate-7-phosphate synthase) were located. Primer extension analysis and nuclease S1 mapping of in vivo transcripts were used to determine the 5' and 3' ends, respectively, of the mRNA. Both ends exhibited some heterogeneity with respect to length. The 3' end of the major molecular species was located within a region that has structural homology with known rho-independent terminators. The location of the aroG promoter was identified in both strands of the DNA by in vitro DNase I footprinting and methylation protection experiments with RNA polymerase. In these experiments, a region of up to 80 base pairs (bp) was protected by the binding of RNA polymerase. The location of the aroG operator was also identified in both strands of the DNA by in vitro DNase I footprinting with pure TyrR. TyrR protected 26 to 28 bp of DNA containing a 22-bp palindrome (TYR R box) and overlapping the -35 region of the promoter. Mutations in the aroG regulatory DNA were isolated by site-directed mutagenesis and cloned in a low-copy-number plasmid to generate aroG-lac fusions. The effects of the mutations on the regulation of aroG expression were determined by measuring the beta-galactosidase activities of the fusions in strains with tyrR, tyrR+, and multicopy tyrR+ genotypes. The results of this mutant analysis confirmed that the aroG operator contains a single TYR R box.
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PMID:Identification of the promoter, operator, and 5' and 3' ends of the mRNA of the Escherichia coli K-12 gene aroG. 197 May 63

The relationship between global RNA transcription capacity and transcript initiation, attenuation, and stability in the rplKAJLrpoBC operon of Escherichia coli has been examined. The rplKAJLrpoBC operon encodes in order the four large ribosome subunit proteins, L11, L1, L10, and L12, and the two large beta and beta' subunits of RNA polymerase. Operon transcripts are initiated at two promoters, PL11 and PL10. The L12-beta intergenic space contains a transcription attenuator which, during balanced growth, terminates about 80% of the transcripts exiting the L12 gene; the remaining transcripts read through into the beta and beta' encoding genes. The capacity for global transcription initiation was modulated using a strain carrying a temperature-sensitive, initiation-defective mutation in rpoC. Following a shift to 39 degrees C, the global transcription initiation capacity was reduced to about one-half the level at 30 degrees C. This partial restriction resulted in a decrease in the stability of distal beta mRNA, whereas the stability of proximal L11-L1 and L10-L12 mRNA was not changed. Measurements of the synthesis rates of L11-L1, L10-L12, and beta mRNAs relative to total RNA synthesis indicated that this operon was selectively transcribed when the initiation capacity of RNA polymerase was limited. The synthesis rates of L11-L1 and L10-L12 mRNA increased about 2-fold, whereas the synthesis rate of beta mRNA increased nearly 5-fold. The relative transcription of other ribosome component genes and the alpha subunit gene exhibited only a modest increase during the partial restriction. Protection from S1 nuclease was used to demonstrate that the preferential transcription within the operon of beta mRNA was the consequence of active regulation of termination-antitermination at the attenuator structure in the L12-beta intergenic space. These results demonstrate that global transcription capacity may be an important parameter in determining both initiation and attenuation of transcription of the rplKAJLrpoBC ribosomal protein-RNA polymerase operon.
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PMID:RNA polymerase activity may regulate transcription initiation and attenuation in the rplKAJLrpoBC operon in Escherichia coli. 198 49

The crtEF, bchCA, and puf operons of the facultative phototrophic bacterium Rhodobacter capsulatus encode gene products that are necessary for the formation of various components of the photosynthetic apparatus. The crtEF operon encodes two enzymes involved in the biosynthesis of carotenoids, the bchCA operon codes for two enzymes of the bacteriochlorophyll biosynthetic pathway, and the puf operon encodes four pigment-binding polypeptides as well as two polypeptides with less well understood functions. These three operons are adjacent to one another on the chromosome and are transcribed in the same direction. We present the results of RNA blotting and S1 nuclease protection end-mapping experiments which provide direct evidence that the mRNA transcripts of these three operons overlap. Therefore, it is likely that the crtEF, bchCA, and puf operons can be expressed as a single transcriptional unit, although RNA polymerase may initiate transcription at any of several promoters.
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PMID:Overlapping mRNA transcripts of photosynthesis gene operons in Rhodobacter capsulatus. 199 90

Using the polymerase chain reaction and standard recombinant DNA techniques, a series of new multipurpose low-copy-number (lcn) vectors, pWSK29, pWKS30, pWKS129 and pWKS130, have been constructed. Plasmids pWSK29 and pWKS30 carry the ampicillin-resistance marker (ApR), 20 unique cloning sites flanked by T7 and T3 RNA polymerase promoters, the lacZ alpha gene and the bacteriophage f1 origin of replication (ori) for production of single-stranded (ss) DNA in the presence of a helper phage. Plasmids pWSK129 and pWKS130 carry the kanamycin-resistance marker (KmR) and have 16 unique cloning sites flanked by T7 and T3 RNA polymerase promoters positioned within the lacZ alpha gene. Plasmids pWSK129 and pWKS130 also contain the f1 ori for the generation of ss DNA in the presence of a helper phage. All of the plasmids have an lcn of six to eight per cell. Each vector can be used for: (i) complementation analysis, (ii) generating unidirectional deletions with exonuclease III/S1 nuclease, (iii) DNA sequencing, (iv) high-level gene expression using T7 RNA polymerase, and (v) run-off transcription. They are very useful for analyzing genes encoding proteins which are toxic in Escherichia coli in high copy number.
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PMID:Construction of versatile low-copy-number vectors for cloning, sequencing and gene expression in Escherichia coli. 205 70

The complete nucleotide sequence of a 3.2-kilobase-pair chromosomal region containing the algP and algQ genes was determined. The algQ gene encodes an acidic 18-kilodalton polypeptide required for transcriptional activation of the algD gene. The algD gene product catalyzes a critical step in alginate biosynthesis, and its overproduction is necessary for the emergence of mucoid Pseudomonas aeruginosa during chronic infections in cystic fibrosis. A novel genetic element, algP, was identified immediately downstream of algQ. This gene appears to act synergistically with algQ. Unlike a biosynthetic gene, algD, and another regulatory gene, algR, which undergo transcriptional activation in mucoid cells, both algP and algQ are equally transcribed in mucoid and nonmucoid isogenic strains of P. aeruginosa. The promoter regions of algP and algQ were mapped by using S1 nuclease protection analysis. The algQ promoter was also analyzed and showed activity in an in vitro transcriptional runoff assay with major RNA polymerase species from P. aeruginosa and Escherichia coli. The putative algQ and algP promoter sequences, unlike algD and algR, resemble sigma 70-utilized promoters from E. coli and appeared constitutively transcribed at a low level in P. aeruginosa. The algP gene has an unusual DNA sequence, with multiple direct repeats organized in six highly conserved, tandemly arranged, 75-base-pair (bp) units. At a lower level, this sequence had 45 degenerate repeats of 12 bp overlapping with the 75-bp repeats and extending beyond the region of 75-bp repeats. The algP repeats appeared important for the function of the algQ-algP regulatory region in maintaining mucoidy.
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PMID:DNA sequence and expression analysis of algP and algQ, components of the multigene system transcriptionally regulating mucoidy in Pseudomonas aeruginosa: algP contains multiple direct repeats. 211 Jan 44

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