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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)

phi 227, a temperate phage from a group H streptococcus (Streptococcus sanguis), was propagated vegetatively in group H strain Wicky 4-EryR, and its characteristics were determined. A procedure dependent on multiplicity of infection, incubation time, and treatment of crude lysates with diatomaceous earth was found to optimize phage yield, resulting in titers of 1 X 10(10) to 2 X 10(10) PFU/ml. Without prior treatment with diatomaceous earth, subsequent purification procedures (methanol, ammonium sulfate, polyethylene glycol) gave recoveries of less than 1% of crude lysate titers. Adsorption of phi227 to host cells was relatively unaffected by the medium, but calcium (not substituted by magnesium) was required for formation of infectious centers. The phage receptor was present on purified cell walls, resisted trypsin and heat, and was removed ty hydrochloric acid, trichloracetic acid, and hot formamide: however, formamide-extracted material failed to inactivate phage, and the nature of the receptor is unknown. Single-step growth experiments showed a latent period of 39 min and a burst size of 100 PFU/infectious center; results were unaffected by omission of supplemental Ca2+, by supplementation with Mg2, addition of glucose, or changes of pH between 6.35 and 8.0; but increased temperature (40 to 43 degrees C) shortened the latent period and decreased the burst size. The latent period was prolonged in genetically competent host cells and in chemically defined medium; and in the latter, the burst size was smaller. Phage replication was sensitive to those metabolic inhibitors which inhibited the host streptococcus: these included rifampin, fluorodeoxyuridine, hydroxyurea, dihydrostreptomycin, and 6-P-hydroxyphenylazouracil. The data suggest that phi227 does not code for a rifampin-resistant RNA polymerase. However, in a rifampin-resistant host strain, phage replication and lysogen formation were both decreased suggesting that altered host core polymerase had less affinity for (some) promotors on the phi227 template. In transfection, a Ca2+-dependent stabilization step that was inhibited by Mg2+ was demonstrated; transformation was not affected by either Ca2+ or Mg2+, and the site and nature of the stabilization are unknown. More than one molecule of DNA was required for plaque formation. Biophysical characterization showed a type B phage of buoyant density (CsCl) 1.50, containing five proteins and 54.8% DNA. The duplex linear DNA had a molecular weight (calculated from contour length) of 23.2 X 10(6) and a guanine plus cytosine content (calculated from melting point) of 42.3 mol%. Similar characterizations of streptococcal phages, including biophysical data, have not been previously available.
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PMID:Characterization of group H streptococcal temperate bacteriophage phi 227. 1 33

Polyoma virus complementary RNA, synthesized in vitro by using highly purified Escherichia coli RNA polymerase and nondefective form I polyoma DNA, was translated in a wheat germ cell-free system. Polypeptides were synthesized that comigrated on sodium dodecyl sulfate-polyacrylamide gels with the polyoma capsid proteins VP1 and VP2, although most of the cell-free products were of smaller molecular weights. The VP1-size protein specifically immunoprecipitated with anti-polyoma virus serum, and upon digestion by trypsin yielded [35S]methionine-labeled tryptic peptides that co-chromatographed with the [3H]methionine-labeled tryptic peptides of virion-derived VP1 on both cation-exchange and anion-exchange resins. The VP2-size in vitro product contained all the virion VP2 methionine-labeled tryptic peptides, as shown by cation- and anion-exchange chromatography and two-dimensional fingerprinting on cellulose. We conclude that full-length polyoma VP1 and VP2 are synthesized in response to complementary RNA and consequently that the viral capsid proteins VP1, VP2, and VP3 are entirely virus coded.
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PMID:Polyoma virus complementary RNA directs the in vitro synthesis of capsid proteins VP1 and VP2. 20 20

An improved purification procedure is described for the sigma subunit of escherichia coli DNA-dependent RNA polymerase [ribonucleoside triphosphate:RNA nucleotidyl-transferase, EC 2.7.7.6]. The method involves chromatography of purified RNA polymerase on single-stranded DNA-agarose, Bio-Rex 70, and finally Ultragel AcA44. The sigma factor obtained is electrophoretically pure with a yield of about 40%. A number of the chemical--physical properties of sigma are presented. A molecular weight of 82,000 was determined by phosphate buffered sodium dodecyl sulfate--polyacrylamide gel electrophoresis. Ultraviolet absorption spectra were used to determine an E280nm 1% of 8.4. The amino acid composition and 12-residue N-terminal sequence (Met-Glx-Glx-Asx-Pro-Glx-(Ser or Cys)-Glx-Leu-Lys-Leu-Leu) of sigma have been determined. The isoelectric focusing properties of sigma are presented. Denaturation--renaturation studies indicate that sigma is capable of an unusually rapid and complete recovery of activity after being subjected to denaturing conditions. A stable, 40,000-dalton fragment is generated from sigma by mild trypsin treatment.
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PMID:Purification and properties of the sigma subunit of Escherichia coli DNA-dependent RNA polymerase. 37 77

Following in vivo administration of hydrocortisone or methylisobutylxanthine to rats, higher levels (1.5- to 2.3-fold) of RNA polymerase I activity are present in liver nuclei and nucleoli of the treated animals as compared to control animals. The elevated specific activity is retained after purification of the enzyme under conditions where the enzyme is dependent on exogenous template for activity. The elevated polymerase activity in nuclei, nucleoli, and soluble enzyme can be destroyed by mild trypsin treatment which results in a rapid decay of the specific activity to the control level. Under these conditions, the control polymerase I activity is stable. The results indicate that in vivo stimulation by hydrocortisone or methylisobutylxanthine results in a conversion of the enzyme to a form that is catalytically more active but has an increased sensitivity to proteolysis.
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PMID:Modification of rat liver RNA polymerase I after in vivo stimulation by hydrocortisone or methylisobutylxanthine. 65 31

1. The surface of the RNA-polymerase-DNA complex possesses an exposed polypeptide loop. 2. Proteinases with differing specificities (trypsin, chymotrypsin, subtilisin and clostripain) preferentially cleave the exposed region. 3. The cleaved polypeptide is reassembled into RNA polymerase by renaturation from a solvent which promotes a random coil conformation. 4. Isolated beta subunit has a proteolytically resistant nucleus of approximately 70000 molecular weight. This resistant polypeptide may be generated by trypsin, chymotrypsin, subiilisin or clostripain. 5. Isolated alpha subunits are comparatively resistant to proteolysis. 6. Although of similar molecular weights beta and beta' appear to have unrelated primary sequences and markedly different conformations in free solution. 7. Digestion of the beta subunit may be blocked by formation of the alpha2beta subassembly. 8. Evidence is presented suggesting that beta' in the intact enzyme (alpha2beta beta') possesses the exposed polypeptide loop.
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PMID:Structural properties of Escherichia coli RNA polymerase Subunits. 77 11

DNA-dependent RNA polymerase lacking subunit sigma was digested with matrix-bound chymotrypsin or trypsin in the presence of 0.4 M NaCl in the monomeric form or at low ionic strength in the oligomeric form. Sigma-containing polymerase was digested in the same way. The course of proteolysis was followed by polyacrylamide gel electrophoresis after dissociation of the enzyme with detergent into subunits and the fragments produced by the hydrolysis. The following results were obtained. (a) The large subunits beta and beta' are cleaved with a much higher rate in the monomeric than in the oligomeric polymerase. (b) Both large subunits are hydrolysed with the same rate. (c) Subunit alpha is hydrolysed almost with the same rate in the monomeric and oligomeric form of polymerase. (d) The same was found for subunit sigma. (e) These effects were independent of the substrate specificity of the protease used. (f) Subunit sigma is much more susceptible to chymotrypsin than to trypsin. (g) Subunit sigma protects the large subunits beta and beta' against tryptic cleavage. These results can be explained in terms of a tentative model for the topography of the protomer-protomer interactions in RNA polymerase. According to this model subunits beta and beta' contain two sites for isologous interactions of protomers. One site can be blocked by attachment of subunit sigma. Subunits alpha and sigma do not participate directly in the association.
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PMID:Digestion with matrix-bound proteases as a possible probe for the topography of the DNA-dependent RNA polymerase from Escherichia coli. 109 50

The 1342 amino acid long beta subunit of Escherichia coli RNA polymerase includes a dispensable region (residues 940-1040) that is absent in homologous RNA polymerase subunits from chloroplasts, eukaryotes, and archaebacteria (Borukhov, S., Severinov, K., Kashlev, M., Lebedev, A., Bass, I., Rowland, G. C., Lim, P.-P., Glass, R. E., Nikiforov, V., and Goldfarb, A. (1991) J. Biol. Chem. 266, 23921-23926). Genetic disruption of this region by in-frame deletion or insertion sensitizes the beta subunit in assembled RNA polymerase molecules to attack by trypsin. We demonstrate that RNA polymerase with the beta polypeptide cleaved in the dispensable region retains normal in vitro activity. Moreover, the RNA polymerase activity is completely restored after denaturation and reconstitution of the enzyme carrying cleaved beta subunit indicating that its carboxyl- and amino-terminal parts fold and assemble into RNA polymerase as separate entities.
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PMID:Dissection of the beta subunit in the Escherichia coli RNA polymerase into domains by proteolytic cleavage. 132 5

The bovine adrenal cortex adrenodoxin gene was inserted into pTZ19 under T7 promoter control. The adrenodoxin mRNA was synthesized with T7 RNA polymerase and then translated in the reticulocyte cell-free translation system. The protein product was identified as the adrenodoxin precursor with molecular weight 22000. The import of the precursor into isolated yeast mitochondria was carried out. The protein was found to be inserted into the trypsin-insensitive compartment of mitochondria via an energy dependent way. This resulted in the processing of the precursor to the 12000-mature form. Thus, the precursor of mammalian adrenodoxin can be normally imported into yeast mitochondria.
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PMID:[Synthesis of a bovine adrenodoxin precursor in vitro and its import into yeast mitochondria]. 150 62

CRP is resistant to attack by carboxypeptidase Y at 37 degrees C, whereas cAMP-CRP is digested yielding a core terminating at Thr-202 and lacking the seven carboxyl-terminal amino acid residues. A similar core (CRPCY) is formed when CRP is incubated with carboxypeptidase Y at 47 degrees C in the absence of cAMP. CRPCY has a more open conformation than CRP at 37 degrees C. While unliganded CRP is resistant to trypsin, CRPCY is sensitive to tryptic attack. Dithionitrobenzoic acid-mediated intersubunit disulfide crosslinking of CRP requires cAMP, CRPCY subunits are crosslinked in the absence of cAMP. The carboxyl-terminal region of unliganded CRP is conformationally restricted at 37 degrees C. The CRPCY retains cAMP binding activity. The CRPCY which terminates at Thr-202, no longer binds lac P+ DNA nor stimulates abortive initiation by RNA polymerase from the lac P+ promoter. The results indicate that the C-terminal region of CRP participates in the conformational stability of the closed form of CRP and indirectly in DNA binding by the open cAMP-CRP conformer.
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PMID:Characterization of the CRPCY core formed after treatment with carboxypeptidase Y. 165 82

Cyclic AMP mediates the hormonal stimulation of a number of eukaryotic genes by directing the protein kinase A (PK-A)-dependent phosphorylation of transcription factor CREB. We have previously determined that although phosphorylation at Ser-133 is critical for induction, this site does not appear to participate directly in transactivation. To test the hypothesis that CREB ultimately activates transcription through domains that are distinct from the PK-A site, we constructed a series of CREB mutants and evaluated them by transient assays in F9 teratocarcinoma cells. Remarkably, a glutamine-rich region near the N terminus appeared to be important for PK-A-mediated induction of CREB since removal of this domain caused a marked reduction in CREB activity. A second region consisting of a short acidic motif (DLSSD) C terminal to the PK-A site also appeared to synergize with the phosphorylation motif to permit transcriptional activation. Biochemical experiments with purified recombinant CREB protein further demonstrate that the transactivation domain is more sensitive to trypsin digestion than are the DNA-binding and dimerization domains, suggesting that the activator region may be structured to permit interactions with other proteins in the RNA polymerase II complex.
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PMID:Characterization of motifs which are critical for activity of the cyclic AMP-responsive transcription factor CREB. 167 8

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