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)

The synthetic DNA alternating copolymers poly dAT-dAT and dABU-dABU have been transcribed with E. coli RNA polymerase to measure the level of BrdU-induced misincorporation of guanine during transcription. GTP is found to be misincorporated into both copolymers at a frequency of 1 per 1000-2000 nucleotides polymerized. Using alpha-32P-GTP, the nearest neighbors to GMP are found to be UMP (approximately 63%), GMP (approximately 25%) and AMP (approximately 17%), with no apparent difference between the two templates. These results suggest that BrdU-substitution in DNA does not necessarily increase the potential for base mispairing during transcription, and hence, promote the production of faulty RNA molecules.
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PMID:Misincorporation of (TP during transcription of poly dAT-dAT and poly dABU-dABU. 110 Dec 26

Previously we reported the isolation of a factor, named the R-protein, which strongly repressed RNA polymerase II [EC 2.7.7.6] of Ehrlich ascites tumor cells. In the present work this factor was found to contain much RNA (ratio of RNA to protein, 2.3 to 1). The RNA was G:C rich, with a very high content of guanylic acid (about 38%). On equilibrium density gradient centrifugation in Cs2SO4 solution, the RNA became distributed above free RNA, but after digestion of the R-protein with pronase the RNA cosedimented with free RNA. Thus the R-protein is a complex of RNA and protein.
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PMID:DNA dependent RNA polymerase from Ehrlich ascites tumor cells. V. Characterization of a factor repressing RNA polymerase II as a ribonucleoprotein. 122 7

A highly selective affinity labeling of T7 RNA polymerase with the o-formylphenyl ester of GMP and [alpha-32P]UTP was carried out. The site of the labeling was located using limited cleavages with hydroxylamine, bromine, N-chlorosuccinimide and cyanogene bromide and was identified as the Lys631 residue. Site-directed mutagenesis using synthetic oligonucleotides was used to substitute Lys631 by a Gly, Leu or Arg residue. Kinetic studies of the purified mutant enzymes showed alterations of their polymerizing activity. For the Lys----Gly mutant enzyme, anomalous template binding was observed.
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PMID:Lys631 residue in the active site of the bacteriophage T7 RNA polymerase. Affinity labeling and site-directed mutagenesis. 184 71

By the use of strong denaturing agents, a genome-linked protein (VPg)-RNA complex was purified from infectious pancreatic necrosis virus. Ribonuclease treatment of 125I-labelled VPg-RNA released a 90K polypeptide identical to the minor structural polypeptide VP1 (the putative RNA polymerase), as determined by peptide mapping. The polypeptide is linked to the RNA by a serine-5' GMP phosphodiester bond. The results identify birnaviruses as the only dsRNA viruses with a VPg, the size of which is the largest of the VPgs of RNA viruses.
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PMID:Characterization of the VPg-dsRNA linkage of infectious pancreatic necrosis virus. 191 32

A polypeptide containing the catalytic domain of an atrial natriuretic peptide receptor guanylate cyclase has been produced using a bacterial expression system. A carboxyl fragment of the membrane form of guanylate cyclase from rat brain, which contains a region homologous to soluble guanylate and adenylate cyclases, was expressed in Escherichia coli with a double plasmid system that encodes T7 RNA polymerase (Tabor, S., and Richardson, C.C. (1985) Proc. Natl. Acad. Sci. U. S. A. 82, 1074-1078). Application of this expression system permitted exclusive radiolabeling of the cloned gene product, thereby providing a means to evaluate the level of expression and stability of encoded proteins. Fusion proteins were formed with the T7 bacteriophage gene 10 product and the 293 carboxyl-terminal residues of guanylate cyclase and two deletional mutants encoding 105 and 69 residues. Extracts prepared from bacteria expressing the carboxyl region, but not those expressing further deletions in this region, had substantial guanylate cyclase activity. There was no associated adenylate cyclase activity, suggesting that the catalytic domain retained its enzymatic specificity. These results provide direct evidence that the carboxyl portion of the membrane form of guanylate cyclase contains a catalytic domain. Homologous regions of the soluble form of guanylate cyclase and adenylate cyclase are likely to have enzymatic properties.
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PMID:The carboxyl region contains the catalytic domain of the membrane form of guanylate cyclase. 197 86

The putative viral transcriptase p90 in infectious bursal disease virus (IBDV) was shown to form an enzyme-guanylate intermediate which is indicative of guanylyl-transferase activity. The p90-nucleotide bond is most likely to be a phosphodiester linkage, as it resisted treatment with HCl and NH2OH but was sensitive to NaOH. This is in contrast to phosphoamide bonds formed by reovirus cores. Methyltransferase activity was also demonstrated in IBDV, and is closely associated with transcription, suggesting that p90 may be a multifunctional enzyme.
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PMID:Demonstration of enzyme activities required for cap structure formation in infectious bursal disease virus, a member of the birnavirus group. 215 6

To study the biological function of the NS protein of vesicular stomatitis virus (VSV), we prepared 21 species of synthetic oligopeptides with 11-21 amino acid residues, corresponding to every portion of the amino acid sequence of NS protein (Indiana serotype), and tested their effects on the VS virion (VSV) transcriptase activity in vitro. Only one peptide affected the virion-associated transcriptase activity of VSV Indiana, by reducing the incorporation of [3H]GMP into acid-insoluble fraction (IC50 = 26 microM). This peptide, the amino acid sequence of which corresponded to the carboxy (C)-terminal region of NS protein, also inhibited the New Jersey serotype virus transcriptase activity, as expected from a high degree of homology found between the amino acid sequences of the C-terminal regions of NS protein of both serotype viruses. Electrophoretic analysis on acrylamide gels of RNA transcripts revealed that the inhibitory synthetic peptide decreased the frequency of the initiation of transcription with no apparent effect on the chain-elongation process of viral transcription. As expected from its highly conserved amino acid sequence, these results suggest that the C-terminal domain of VSV NS protein is involved in initiating viral RNA synthesis.
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PMID:Vesicular stomatitis virion-associated transcriptase activity was suppressed in vitro by a synthetic 21 amino acid oligopeptide prepared to mimic the carboxy-terminus of NS protein. 216 48

A highly selective affinity label was introduced into the T7 phage RNA polymerase by means of GMP ortho-formylphenyl ester and [alpha-32P]UTP nearby the enzyme's active site, which was located using limited cleavage technique. Hydroxylamine, bromine, N-chlorosuccinimide, and cyanogen bromide were employed as the reagents. Analysis of gel-electrophoretic patterns of the cleavage products led to a conclusion that Lys631 is the target of labelling. The region nearby this residue has a high degree of sequence homology with regions of RNA polymerases from T3 and SP6 phages and yeast mitochondria.
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PMID:[Localization of a lysine residue near the site of initiating substrate binding of T7 bacteriophage RNA polymerase]. 250 Sep 35

The study of transcription kinetics by T7 RNA polymerase is facilitated by the small size of its promoter, allowing the use of synthetic oligonucleotide templates with carefully defined sequences. We have previously used this approach to measure Michaelis-Menten steady-state kinetics for production of the five-base runoff transcript GGACU. In particular, Km for the interaction between enzyme and template under saturating levels of all four nucleotide triphosphates was shown to be approximately 0.02 microM. We now show that the corresponding Km and Vmax for initiation on a similar template coding for the runoff transcript GACU are the same as for the earlier study (Km = 0.02 microM; kcat = 40-50 min-1). This new template allows the measurement Km for association of the initial nucleotide GTP with enzyme or with the enzyme-DNA complex. The results show that KGTPm (0.60 mM) is somewhat higher than earlier approximations of Km for addition of elongating GTP during the later phase of processive elongation. As expected, the (initiating) Km for the GTP analogue ITP (KITPm) is increased (by about 2-fold), presumably as a result of weakened Watson-Crick base pairing. However, comparison of Km values for the GTP analogues GMP and guanosine shows little effect on substitution of the 5'-triphosphate by monophosphate or by a hydroxyl, respectively. This result suggests that a single active site has been evolutionarily adapted to accept from the 5' end of a waiting nucleotide both a 5'-triphosphate at initiation and a 5'-monophosphate ester (RNA) during elongation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:T7 RNA polymerase does not interact with the 5'-phosphate of the initiating nucleotide. 266 58

During transcription of DNA templates in vitro, Escherichia coli RNA polymerase pauses at certain sequences before resuming elongation. Previous studies have established that some pausing events are brought about by the formation of RNA hairpin structures in the nascent transcript; however, it is not known whether this is an invariant and causal relationship. We have mapped and characterized almost 200 distinct pause sites located within the early region of bacteriophage T7 DNA using a collection of T7 deletion mutant DNAs and taking advantage of a procedure that permits synchronous transcription from the T7 A1 promoter. The pausing pattern is sensitive both to the overall concentration of nucleotide substrates and to the relative concentrations of the four nucleotides. The apparent Ks value for a particular nucleoside triphosphate can vary over a 500-fold range depending on the nucleotide sequence, and pausing at some sites can be induced by modest reductions in substrate concentrations. However, pausing is not solely a consequence of substrate limitation. Pausing at certain sites is caused by some feature of the template or of the transcript itself. Substitution of inosine triphosphate (ITP) for GTP during transcription strongly affects the pattern and strength of pausing events, suggesting that base-pairing interactions involving the RNA strand are important for some pausing events. Other pauses are determined by sequences downstream from the elongation site that have not yet been transcribed, and pausing at these sites is generally insensitive to substitution of IMP for GMP in the nascent transcript. Pausing at one particular site on T7 DNA is strongly enhanced by the presence of E. coli gene nusA protein. These results confirm that there are multiple classes of sites that lead to transcriptional pausing, and provide a collection of sites for further study. Using selected pause sites in the early region of T7 DNA, we have tried to evaluate the possible roles of primary sequence, base composition and secondary structure in pausing. Computer analysis was used to compare primary sequences and potential RNA hairpin structures in transcripts for pauses known to share similar biochemical properties. We see no correlation of pause sites with regions of particular base composition or with specific primary sequences. While some pauses are correlated with the potential to form stable RNA hairpins just upstream from the growing point of the RNA chain, there is not a strict one-to-one relationship between predicted RNA hairpins and the location of pause sites.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mapping and characterization of transcriptional pause sites in the early genetic region of bacteriophage T7. 282 Dec 85

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