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 formation of reovirus double-stranded (ds) RNA and of oligo adenylic acid (oligo A) is inhibited by 5 mug of actinomycin D per ml added at the time of viral infection. Viral proteins are synthesized and assembled into dsRNA-deficient particles under these conditions. The addition of cycloheximide to infected cells during the mid-logarithmic phase of viral replication terminates protein and dsRNA synthesis, but allows continued oligo A synthesis for about 1 h. The (3)H-labeled oligo A formed in the presence of cycloheximide is incorporated into particles whose density in CsCl is identical to that of reovirions. Using the large particulate or virus factory-containing cytoplasmic fraction of infected L-cells, we have established an in vitro system for the synthesis of oligo A. The in vitro product migrates slightly faster in sodium dodecyl sulfate acrylamide gels than marker oligo A. Oligo A synthesis in vitro continues for about 1 h, requires, the presence of only one ribonucleoside triphosphate (ATP), is not inhibited by DNase or RNase, but is abruptly terminated by the addition of chymotrypsin to the reaction mixture. Oligo A formed both in vivo and in vitro is released from the factory fraction by chymotrypsin digestion. The enzymes which catalyze the synthesis of oligo A, dsRNA, and single-stranded RNA all exhibit a similar temperature dependence with an optimum of approximately 45 C. These results indicate that oligo A is formed within the core of the nascent virion after the completion of dsRNA synthesis; they suggest that the oligo A polymerase is an alternative activity of the virion-bound transcriptase and that it is regulated by outer capsomere proteins.
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PMID:Shythesis of reovirus oligo adenylic acid in vivo and in vitro. 485 7

Polyhedral cytoplasmic deoxyribovirus virions contain a DNA-dependent RNA polymerase which catalyzes the incorporation of ribonucleotides into an acid-precipitable product. Treatment of virions with sodium deoxycholate and dithiothreitol resulted in the formation of subviral particles which could be separated from virions by rate zonal centrifugation in sucrose gradients. Subviral particles were RNA polymerase-positive and more active per unit mass of protein than virions. In vitro enzyme activity associated with subviral particles required addition of ribonucleotides, Mg(2+), and exogenous denatured DNA template. Optimal enzyme activity occurred over a broad pH (7.2 to 8.8) and Mg(2+) concentration (2 to 10 mumol) range. The specific activity of the RNA polymerase was maximal at 37 C. Addition of DNase or actinomycin D to the reaction mixture reduced the incorporation of [(3)H]UMP into an acid-precipitable product. The product of the reaction was sensitive to degradation by RNase but not to DNase or Pronase. These data suggest that the enzyme copies DNA into RNA.
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PMID:DNA-dependent RNA polymerase activity associated with subviral particles of polyhedral cytoplasmic dexoyribovirus. 485 85

The DNA of Escherichia coli has been isolated in a compact structure containing small amounts of protein and RNA and having a sedimentation coefficient of approximately 3200 S. The molecular weight of the DNA in the complex is very large (probably higher than 10(9)); the protein is predominantly core RNA polymerase; the RNA is chiefly nascent messenger and ribosomal chains. Solutions containing the complex have low viscosities; this plus its sedimentation rate suggest that the DNA is in a tightly folded conformation. The DNA unfolds after exposure to RNase or heat; this indicates that an RNA component of the complex is involved in stabilizing the structure.
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PMID:The folded genome of Escherichia coli isolated in a protein-DNA-RNA complex. 492 71

Salivary gland nuclei of Drosophila hydei, isolated by a modification of the procedure described by Boyd et al. (9), retain their normal morphology during the isolation and subsequent incubation procedure. RNA synthesis was studied in isolated nuclei by biochemical and cytological techniques. In radioautographs 70% of the nuclei displayed a distribution of labeled RNA over the nuclear constituents similar to the distribution obtained after in vivo incorporation of radioactive precursor. Chromosome puffs and the nucleoli were specifically labeled. The remaining 30% of the nuclei showed a weak to very weak incorporation of radioactive precursor. In these nuclei most of the radioautographic grains were concentrated over the nucleolus, and a few grains were randomly distributed over the chromosomes. Actinomycin D and the absence of ATP, GTP, and CTP in the medium inhibited incorporation of radioactive precursor. The radioactive product was sensitive to combined pronase and RNase digestion. Addition of E. coli RNA polymerase to the incubation medium enhanced the specific labeling over the puffed regions. The sedimentation behavior of the RNA synthesized in isolated nuclei was different from that of RNA synthesized during a 20 min pulse of radioactive precursor administered to whole glands in vivo and in vitro. Neither the steroid ecdysterone nor a temperature treatment was effective in inducing new puffs in isolated nuclei.
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PMID:Structural and functional properties of polytene nuclei isolated from salivary glands of Drosophila hydei. 578 75

Mesenchymal cells isolated from the papilla of embryonic tooth germs of the mouse were cultured in a complex medium for five to six days. Liquid nitrogen lysates, prepared from these cells, incorporated nucleoside monophosphates into a cold acid-insoluble product. The product was sensitive to RNase and no product was formed if the lysate was pretreated with DNase. The reaction was sensitive to EDTA and, in its presence, optimum activity was obtained with 2 mM MgCl2. On sucrose gradients, the reaction product was distributed between two broad peaks; one centered about 18S and the other above 28S. The RNA polymerase inhibitor alpha-amanitin inhibited approximately 50% of the activity at a concentration of 10 microgram/ml.
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PMID:Transcriptional activity in lysates of cultured mesenchymal cells from embryonic tooth germs. 615 75

Human placentae obtained early in pregnancy or at full term were examined for RNA content per cell, RNA polymerase types and activities, and chromatin template availability. The RNA:DNA ratio fell from 0.7 at 15 to 20 weeks to 0.4 at 40 weeks of pregnancy. Since RNase activities were similar at both times, the reduction in RNA content was attributed not to increased degradation, but to reduced synthesis. At both stages of pregnancy, about 55 to 60 per cent of the RNA polymerase activity in isolated placental nuclei was accounted for by RNA polymerase II, as judged by suppression of activity with alpha-amanitin and by separation of the extracted polymerases on DEAE-Sephadex. The relative roles of changes in polymerase activity and template availability were measured in nuclei from 20- and 40-week placentae. Nuclei showed 20 per cent greater polymerase activity in full-term than in early placentae, but the template availability of isolated chromatin for transcription by RNA polymerase II was 70 per cent less at full term. We conclude that the reduced amount of RNA per cell in the full-term placenta is due to reduced template availability that more than offsets the slight increase in polymerase activity.
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PMID:Control of RNA content of developing human placenta. 616 May 73

In an earlier report, it was shown that aflatoxin B1 treatment strongly inhibits rat liver nucleolar RNA synthesis (Yu, F. L. (1977) J. Biol. Chem. 252, 3245-3251). The present paper is an attempt to elucidate the mechanism of this inhibition. Two h after aflatoxin B1 injection (0.3 mg/100 g body weight), rat liver nucleolar RNA synthesis, in vitro, was inhibited by an average of 90%. This inhibition could result from (a) inhibited RNA polymerase I activity per se, (b) impaired nucleolar DNA template, or (c) impaired nucleolar chromatin. Earlier studies found that the total RNA polymerase I activity was not affected by aflatoxin B1 treatment. In the present work the total nucleolar DNAs from control and from aflatoxin B1-treated groups were isolated and compared for template efficiencies in directing RNA synthesis with solubilized RNA polymerase I from the control group. No difference was found. However, when nucleolar chromatin function was analyzed, it was found that aflatoxin B1 treatment resulted in a dramatic reduction in the RNA chain elongation rate to only 13% of the control. The chain number, which is a measure of the number of engaged enzymes transcribing the nucleolar chromatin initiated in vivo, was only slightly reduced (33%). Furthermore since it was found that aflatoxin B1 treatment did not increase RNase activity in the treated nucleoli, the dramatic decrease in RNA chain elongation is therefore believed to be the major mechanism of aflatoxin B1 inhibition of rat liver nucleolar RNA synthesis. DNase I digestion of the nucleolar chromatin suggests that aflatoxin B1 treatment may have altered the conformation of the transcriptionally active regions of the nucleolar chromatin.
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PMID:Studies on the mechanism of aflatoxin B1 inhibition of rat liver nucleolar RNA synthesis. 616 44

An in vitro culture system for the proliferation of IgG-forming plasma cells from mouse bone marrow cultures has previously been described. The present study attempts to elucidate the mode of action of thymic RNA in these cultures. Autoradiography after using radiolabeled thymic RNA showed that radioactive material was mainly incorporated into the nuclei of IgG-forming plasma cells. No radiolabeled thymic RNA was incorporated into the cells except immunoblasts. The incorporated thymic RNA was acid insoluble and digested by RNase, but resistant to DNase and pronase. Radioactivity in the nucleotide pool after the cells were cultured with radiolabeled thymic RNA was negligible, indicating that reutilization of degraded RNA did not occur in the nuclei of the plasma cells. Moreover, the incorporation of radiolabeled thymic RNA by the cells was not prevented by excess unlabeled nucleosides. Escherichia coli transfer RNA, L-cell RNA and synthetic polynucleotide poly(A-U) were incorporated but were distributed in a different manner in the cells. A derivative of rifampicin, 2'5'-dimethyl N(4') benzyl-N(4')[desmethyl]rifampicin (AF/ABDMP), a possible inhibitor of RNA-dependent DNA polymerases, suppressed both the incorporation of thymic RNA and the differentiation of immunoblasts. AF/ABDMP suppressed DNA synthesis by bone marrow cultures to the same level as those pretreated with anti-mouse B-cell antibodies and complement. DNA dependent RNA polymerase activity was observed in the supernatant of bone marrow cultures stimulated by normal syngeneic thymic RNA and human gammaglobulin as antigen. These results imply a possible relationship between B-cell differentiation and RNA-dependent DNA polymerases.
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PMID:Intranuclear incorporation of thymic low molecular weight RNA by murine bone marrow immunoblasts and inhibition of plasma cell formation by a derivative of rifampicin. 617 4

The structure of in vitro synthesized mouse small nuclear RNA transcribed by RNA polymerase I (snPI RNA) was studied by T1 RNase digestion pattern analysis. The patterns of four different snPI RNA species were different from those of the U1 and U2 RNA species. In addition, the four different snPI RNA species, ranging from 130 to 240 nucleotides in length, yielded almost identical patterns. The snPI RNA molecules hybridized to cloned mouse ribosomal DNA containing the nontranscribed spacer DNA and 45S ribosomal precursor RNA molecules did not compete with this hybridization. Southern blot analysis of fragments from the ribosomal DNA confirmed that snPI RNA species exclusively hybridized to sequences corresponding to the so-called nontranscribed ribosomal spacer region.
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PMID:Small nuclear RNAs are encoded in the nontranscribed region of ribosomal spacer DNA. 617 77

A rodent 4.5S RNA molecule with extensive homology to the Alu family of interspersed repetitive DNA sequences has been found physically associated with polyadenylated nuclear and cytoplasmic RNAs (W. Jelinek and L. Leinwand, Cell 15:205-214, 1978; S. Haynes et al., Mol. Cell. Biol. 1:573-583, 1981). In this report, we describe a 4.5S RNA molecule in rat cells whose RNase fingerprints are identical to those of the equivalent mouse molecule. We show that the rat 4.5S RNA is part of a small family of RNA molecules, all sharing sequence homology to the Alu family of DNA sequences. These RNAs are synthesized by RNA polymerase III and are developmentally regulated and short-lived in the cytoplasm. Of this family of small RNAs, only the 4.5S RNA is found associated with polyadenylated RNA.
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PMID:Small RNA molecules related to the Alu family of repetitive DNA sequences. 618 2

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