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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 attenuation model for transcriptional regulation of the Escherichia coli pyrBI operon is based on the assumption that transcription terminates upstream of the structural genes at a rho-independent terminator when cells contain high levels of UTP. When, however, the cells are limited for pyrimidines, the presence of ribosomes translating the short leader peptide is presumed to cause an alteration in the secondary structure of the terminator in a way that allows RNA polymerase to transcribe the entire operon. These two premises of transcriptional regulation were tested by using exonuclease protection assays to map the 3' ends of transcripts extracted from cells containing either ample or depleted concentrations of pyrimidines. The results support the model since 99% of the pyrBI transcripts terminated at the (G + C)-rich region of dyad symmetry upstream of the structural genes when cells were grown in excess uracil. In addition, a significant portion (36%) of the pyrBI transcripts extracted from cells containing reduced pyrimidine concentrations extended past the dyad into the structural genes. This observation correlated with the amounts of aspartate transcarbamoylase synthesized in cells under the various conditions. The mapping technique was also used to determine the position of the 5' ends of the transcripts to measure contributions of two potential start sites (P1 and P2) to the pool of pyrBI transcripts. The results show that under all conditions no more than 3% of the total transcripts had 5' ends corresponding to the upstream promoter, P1. In cells lacking P1 virtually all transcripts from P2 terminated at the (G + C)-rich hairpin when the cellular level of pyrimidines was high. Conversely 57% of the transcripts extended past the terminator when cells were grown in UMP. The S1 nuclease technique also provided a measure of the steady state level of transcripts originating at P2. In cells depleted of pyrimidines there was a 5-10-fold increase in these transcripts depending on the number of copies of pyrBI. This increase, which is independent of attenuation, is caused by a different regulatory mechanism which as yet has not been identified.
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PMID:Attenuation in the regulation of the pyrBI operon in Escherichia coli. In vivo studies of transcriptional termination. 267 Sep 23

Analysis of the termination of transcription by yeast RNA polymerase I (Pol I) using in vitro run-on experiments in both isolated nuclei and permeabilized cells demonstrated that Pol I does not traverse the whole intergenic spacer separating consecutive 37S operons, but terminates transcription before reaching the 5S rRNA gene, that is within NTS 1. In order to discriminate between processing and termination at the 3'-end generating sites previously identified in vivo in NTS 1 (T1, T2 and T3), fragments containing these sites were inserted into the middle of the reporter DNA of an artificial rRNA minigene. RNA isolated from yeast cells transformed with these minigenes was analyzed for the presence of transcripts derived from sequences both up- and downstream of the insert by Northern blot hybridization, reverse transcription analysis and S1 nuclease mapping. In accordance with previously obtained results T1 (+15 to +50) was found to behave as a processing site. T2 (+210) however was concluded to be an efficient, genuine Pol I terminator. In addition to T2, two other terminators were identified in NTS 1: T3A (at +690) and T3B (at +950). Surprisingly, when the 3' terminal part of NTS 2 was tested for its capacity to generate 3'-ends, another terminator (Tp) was found to be present at a position 300 bp upstream of the transcription initiation site of the 37S-rRNA operon.
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PMID:Termination of transcription by yeast RNA polymerase I. 268 55

Several approaches were used to study the transcriptional control region of the melanin-production locus (melC) of Streptomyces antibioticus. Filter-binding in combination with exonuclease III protection localized the 3' boundary of a Streptomyces RNA polymerase-binding site predominantly about 39 nucleotides (nt) upstream from the start codon of melC1, the first open reading frame in the melC locus. Deletion of nt 112-197 upstream from the melC1 start codon reduced melC expression to less than 10%, and deletion of nt 28-107 or 28-120 upstream from melC1 totally inactivated melC. High-resolution nuclease S1 mapping identified the in vitro transcriptional start point (tsp) at 33-34 nt upstream from the start codon of melC1. No sequence resembling the E. coli consensus promoter sequence was found in this region, and site-directed mutagenesis of such a sequence located 101-132 nt upstream from melC1 did not influence melC expression. These studies suggest that transcription of melC is principally from a single tsp and is positively regulated by a mechanism that involves sequences 87-163 nt upstream from the tsp.
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PMID:Analysis of the promoter region of the melanin locus from Streptomyces antibioticus. 269 12

Expression of ornithine decarboxylase is regulated by a variety of hormonal and other stimuli in rat cells and tissues. To study this phenomenon at the molecular level, we isolated and sequenced a cDNA-encoding rat ornithine decarboxylase and deduced its amino acid sequence. The cDNA clone was used to isolate a clone from a rat genomic library which contained the sequence of the entire rat ornithine decarboxylase gene. The gene comprised 12 exons and 11 introns and spanned 7.7 kilobases. Two polyadenylation signals (AATAAA) were located 310 and 697 base pairs 3' to the translational termination codon and were responsible for the occurrence of two hybridizing mRNA species in Northern blots of rat cells and tissues. S1 nuclease mapping suggested that there were multiple transcriptional start sites; the major one appeared to be located 2269 base pairs of genomic sequence 5' to the ATG translational initiation site, representing 274 bases of mRNA. Several potential regulatory elements were identified in the 5'-promoter regions or in the first intron: a TATA box, GC boxes, AP-1 and AP-2 binding sites, a cAMP-responsive element, a glucocorticoid regulatory element, and RNA polymerase III promoter sequences. The 5'-noncoding region of the mRNA was extremely rich in G + C; secondary structure predictions suggested that almost this entire region could form stable secondary structures, with an overall free energy of formation (delta G) of -114 kcal/mol. The potential regulatory elements identified in both the promoter region of the gene and the 5'-untranslated region of the mRNA may be involved in the complex regulation of rat ornithine decarboxylase expression.
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PMID:Rat ornithine decarboxylase gene. Nucleotide sequence, potential regulatory elements, and comparison to the mouse gene. 272 15

srnB is an F-plasmid encoded gene, otherwise silent, whose expression is induced by added rifampicin, leading to the release of cellular Mg2+ and degradation of stable RNA. In the absence of rifampicin, transcripts from the srnB gene were relatively short. S1 nuclease mapping revealed that the short mRNA species terminated within the leader, at the 3' end of a potential stem-and-loop structure. A deletion in the stem-loop resulted in constitutive synthesis of the mRNA that extended beyond the termination site into the structural gene. Even with the wild-type gene, transcription continued beyond the terminator sequence in the presence of added rifampicin. Most of the transcripts synthesized in the presence of rifampicin were long enough to encode the srnB protein. We hypothesize from these results that RNA polymerase associated with rifampicin can read through the terminator to induce srnB expression.
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PMID:Transcriptional regulation of F plasmid gene srnB: rifampicin-promoted in vitro readthrough of a terminator in the leader region. 274 21

S1 nuclease mapping of RNA prepared from Pseudomonas amyloderamosa SB-15 suggested that the iam gene coding for isoamylase (glycogen 6-glucanohydrolase [EC 3.2.1.68]) is transcribed from two promoters. The transcription start site for the upstream promoter (termed P1) was located -182 base pairs from the first nucleotide of the initiation codon of iam, whereas the start site for the downstream promoter (termed P2) was 99 base pairs downstream of the P1 start site. Transcriptions from these promoters were induced by maltose and were not repressed by glucose. The promoter regions contained sequences homologous to the consensus sequence recognized by sigma 54 RNA polymerase of enteric bacteria and found in promoters of other Pseudomonas species. Northern (RNA) hybridization provided evidence that the iam gene is transcribed as monocistronic mRNAs with an approximate size of 2.6 kilobases.
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PMID:Transcription of the isoamylase gene (iam) in Pseudomonas amyloderamosa SB-15. 275 57

We have shown that an extract made from HeLa cells harvested 6 hr after infection with vaccinia virus can transcribe a duplex DNA template containing a late viral gene. S1 nuclease analyses using genomic and synthetic probes indicated that the 5' ends of RNA synthesized in vitro are similar to those of RNA made in vivo and contain 5' poly(A) sequences contiguous with the translation initiation codon. Kinetic analysis of RNA synthesized in vitro demonstrated that a correctly initiated and 5' polyadenylylated product appeared within 5 min after transcription reactions were started. A cis-splicing mechanism of poly(A) addition can be ruled out because the DNA template used in vitro had no poly(dT) sequence and could contain as few as 37 base pairs upstream of the start of the RNA. In addition, we found that a point mutation in the first of two consecutively encoded adenylate residues preceding the ATG initiation codon abolished transcription in vitro. These data are consistent with at least three models: (i) RNA polymerase initiates RNA synthesis with a run of adenylate residues; (ii) a poly(A) primer is used for initiation; or (iii) the poly(A) leader is rapidly and efficiently attached to the RNA by ligation.
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PMID:In vitro synthesis of vaccinia virus late mRNA containing a 5' poly(A) leader sequence. 282 58

Transcription initiation of the hisA gene in vivo in the archaebacterium Methanococcus vannielii, as determined by nuclease S1 and primer extension analyses, occurs 73 base pairs (bp) upstream of the translation initiation site. Binding of M. vannielii RNA polymerase protects 43 bp of DNA, from 35 bp upstream (-35) to 8 bp downstream (+8) of the hisA mRNA initiation site, from digestion by DNase I and exonuclease III. An A + T rich region, with a sequence which conforms to the consensus sequence for promoters of stable RNA-encoding genes in methanogens, is found at the same location (-25) upstream of the polypeptide-encoding hisA gene. It appears therefore that a TATA-like sequence is also an element of promoters which direct transcription of polypeptide-encoding genes in this archaebacterium.
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PMID:An archaebacterial RNA polymerase binding site and transcription initiation of the hisA gene in Methanococcus vannielii. 282 15

The murine urokinase-type plasminogen activator (uPA) gene has been isolated from a BALB/c liver DNA cosmid library and its nucleotide sequence established. The gene is organized into 11 exons comprising 34.7% of the 6710 base pair (bp) region spanning the interval between the presumed transcription initiation and polyadenylation sites. The transcription initiation site is flanked by common RNA polymerase II promoter elements, including a TATA box and a potential transcription factor Sp1 binding site. A large polypurine tract of the structure (AG)22(AGGG)16(AG)28 is located 79 bp upstream of the 5'-terminus. It was highly sensitive to the single-strand-specific nuclease S1, suggesting a non-B-DNA conformation of unknown significance. Consistent with the well-documented influence of adenosine cyclic 3',5'-phosphate (cAMP) on uPA gene expression, there is a dodecanucleotide homologous to proposed regulatory sequences identified in other cAMP-modulated genes. Comparison of the murine uPA gene to the previously described porcine and human uPA genes revealed an unusually high degree of evolutionary (interspecies) sequence conservation that was not limited to exons but included introns and flanking sequences as well.
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PMID:The murine urokinase-type plasminogen activator gene. 283 40

RNA polymerase, purified from Methanococcus vannielii, was shown by exonuclease III footprinting to bind to a 49-base-pair (bp) region of DNA in the intergenic region upstream of mcrB. S1 nuclease protection experiments demonstrated that transcription initiation in vivo occurs within this region at 32 or 33 bp 5' to the ATG translation initiation codon of mcrB and 19 or 20 bp 3' to a TATA box.
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PMID:RNA polymerase-binding and transcription initiation sites upstream of the methyl reductase operon of Methanococcus vannielii. 283 92


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