Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Influenza virus infection has adverse effects on the metabolism of two representative RNA polymerase II transcripts in chicken embryo fibroblasts, those coding for beta-actin and for avian leukosis virus (ALV) proteins. Proviral ALV DNA was integrated into host cell DNA by prior infection with ALV. Within 1 h after influenza virus infection, the rate of transcription of beta-actin and ALV sequences decreased 40 to 60%, as determined by labeling the cells for 5 min with [3H]uridine and by in vitro, runoff assays with isolated nuclei. The transcripts that continued to be synthesized did not appear in the cytoplasm as mature mRNAs, and the kinetics of labeling of these transcripts strongly suggest that they were degraded in the nucleus. By S1 endonuclease assay, it was confirmed that nuclear ALV transcripts disappeared very early after infection, already decreasing ca. 80% by 1 h postinfection. A plausible explanation for this nuclear degradation is that the viral cap-dependent endonuclease in the nucleus cleaves the 5' ends of new polymerase II transcripts, rendering the resulting decapped RNAs susceptible to hydrolysis by cellular nucleases. In contrast to the nuclear transcripts, cytoplasmic beta-actin and ALV mRNAs, which are synthesized before infection, were more stable and did not decrease in amount until after 3 h postinfection. Similar stability of cytoplasmic host cell mRNAs was observed in infected HeLa cells, in which the levels of actin mRNA and two HeLa cell mRNAs (pHe 7 and pHe 28) remained at undiminished levels for 3 h of infection and decreased only slightly by 4.5 h postinfection. The cytoplasmic actin and pHe 7 mRNAs isolated from infected HeLa cells were shown to be translated in reticulocyte extracts in vitro, indicating that host mRNAs were not inactivated by a virus-induced modification. Despite the continued presence of high levels of functional host cell mRNAs, host cell protein synthesis was effectively shut off by about 3 h postinfection in both chicken embryo fibroblasts and HeLa cells. These results are consistent with the establishment of an influenza virus-specific translational system that selectively translates viral and not host mRNAs.
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PMID:Metabolism and expression of RNA polymerase II transcripts in influenza virus-infected cells. 609 46

It was shown previously that E. coli RNA polymerase and T7 RNA polymerase being incubated with oligonucleotides of different length derived from RNA endonuclease hydrolysate bind selectively to certain oligonucleotides with the length larger than or equal to 5. The data presented demonstrate that T3 RNA polymerase also binds selectively from the isoplith mixtures certain oligonucleotides starting from pentanucleotides. Adding of excess of T3 RNA polymerase it was possible to exhaustively extract the recognizable oligonucleotides from the isoplith mixture. However, the exhausted by T3 RNA polymerase mixture of pentanucleotides still contained those which are bound selectively by T7 and E. coli RNA polymerases. The data suggest that various RNA-polymerases recognize different oligoribonucleotides. It was shown that T3 DNA inhibits the selective binding of penta-or heptaribonucleotides to T3 RNA polymerase competing obviously for the enzyme. The T3 RNA polymerase bound penta- or heptanucleotides inhibit DNA-dependent RNA synthesis carried out by the enzyme; the isoplith mixtures which do not contain T3 RNA polymerase bound oligonucleotides are deprived of the inhibitory properties. Only those isoplith mixtures contain T3 RNA polymerase bound oligonucleotides which were derived from symmetrically transcribed RNA which have obviously promoter simulating sequences. The data provide evidence that T2 RNA polymerase binds selectively the oligonucleotides mimicking the promotor recognition sites.
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PMID:[Formation of specific T3-RNA-polymerase complexes with oligoribonucleotides and inhibition of DNA-dependent RNA synthesis]. 615 71

the ability of the core isolated from Escherichia coli RNA polymerase to interact with specificity-determining subunits isolated from Bacillus subtilis RNA polymerase has been determined by measuring the transcription of "early" and "middle" genes of phage SP82. Two specificity-determining subunits were tested: the sigma subunit and a 28,000 dalton (28 K) peptide isolated from a modified polymerase produced at approximately 8 min after infection of B. subtilis with SP82. Earlier experiments (Spiegelman, G. B. and Whiteley, H. R. (1978) Biochem. Biophys. Res. Commun. 81, 1058-1065) demonstrated that sigma and the 28K peptide are required for the recognition of early and middle gene promoters, respectively, by the B. subtilis core assembly. The present investigation showed that E. coli core interacted more efficiently with the B. subtilis sigma than with the 28K peptide, as judged by the rate of RNA synthesis. Early RNA was produced by the E. coli and B. subtilis holoenzymes and by E. coli core supplenented with B. subtilis sigma and only minor differences were found in comparisons of transcripts by hybridization and by electrophoretic analysis. Measurements of template specificity, the formation of stable enzyme . DNA complexes, and the hybridization of transcripts to fragments of SP82 DNA produced by digestion with restriction endonuclease Hha indicated that E. coli core supplemented with the 28K-supplemented E. coli core with those synthesized by the modified polymerase extracted from B. subtilis 8 min after infection with SP82 suggest that both preparations recognized the same initiation and termination sequences.
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PMID:The interaction of Escherichia coli core RNA polymerase with specificity-determining subunits derived from unmodified and SP82-modified Bacillus subtilis RNA polymerase. 616 Jan 56

RF I DNA of phage fd containing 5-bromo-deoxyuridine (br5Ud) or deoxyuridine (Ud) instead of deoxythymidine (Td) inthe codogenic strand was synthesized in vitro. The modified genomes could be cleaved by restriction endonuclease Hpa II. Although the recognition site of Hpa II is CCGG, the cleavage rate was significantly reduced with Ud-containing DNA. Both base substitutions altered the mobilities of several DNA fragments under the conditions of polyacrylamide gel electrophoresis. The fragments containing binding sites for RNA polymerase were assayed for the rates of stable complex formation. The substitution of Td for both, Ud and br5Ud, strongly influenced this parameter. Thus the methyl group of Td has to be regarded as one of the sites in DNA which determine the rate of stable RNA polymerase binding and thereby possibly mediate promoter activity in vitro (24,25,26). In most cases the rate of complex formation was decreased by Ud, but increased by br5Ud.
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PMID:On the influence of thymidine analogues on the activity of phage fd promoters in vitro. 616 59

Reverse transcriptase from avian retrovirus has a physically associated DNA endonuclease with novel substrate and cofactor requirements. A similar endonuclease activity copurifies with pp32, a protein from viral cores that has been identified with the non-alpha region of the beta subunit of reverse transcriptase. Several temperature-sensitive mutants of avian retrovirus with thermolabile DNA polymerase were tested for thermal sensitivity of their DNA endonuclease activity. Two pol mutants of Rous sarcoma virus, ts335 and ts337, had thermolabile DNA endonuclease; a temperature-resistant revertant of ts335 had a heat-stable DNA endonuclease. DNA endonuclease is therefore a product of the pol gene and an integral part of the reverse transcriptase. A second class of pol mutants, typified by ts568 and ts553, had thermolabile DNA polymerase, but heat-stable DNA endonuclease.
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PMID:Virus-coded DNA endonuclease from avian retrovirus. 616 35

Restriction of protein intake in the diet has been shown to produce a change in transcription activity as determined in vitro. Conditions for a reduced transcription activity were investigated with selective digestion of nuclei with micrococcus nuclease (EC 3.1.4.7). Liver nuclei from young male rats fed a diet containing either 20 or 3% casein for 6 days were digested with 1.3 microgram of micrococcus nuclease protein/mg of nuclear DNA (specific enzyme activity 15,000 or 150 units/mg of protein). Part of the chromatin-bound RNA polymerase activity was transferred from the 2,000 x g to the 102,000 x g pellet. Independent of the type of endonuclease use, the specific activity of chromatin-bound and soluble RNA polymerase I plus III was similar in the two groups of rats. After protein restriction RNA polymerase II activity was significantly diminished in the 2,000 x g pellet, and was unchanged in the 102,000 x g pellet. Heparin-stimulated and soluble RNA polymerase II activities were significantly reduced. Number and length of RNA chains synthetized by chromatin-bound RNA polymerase I plus III remained unchanged by dietary treatment. After a low protein diet, RNA polymerase II in the absence and presence of heparin synthesized an unchanged number of RNA chains with reduced length. A selective digestion of chromatin with micrococcus nuclease is needed to show the reduction in RNA polymerase II activity after protein restriction.
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PMID:Reduced transcription activity of rat liver chromatin after protein restriction and selective digestion of nuclei with micrococcus nuclease. 616 34

One of the factors regulating the accessibility of specific DNA sequences to endonuclease nicking during meiosis is a group of small nuclear RNA molecules, 125 nucleotides in length and transcribed by RNA polymerase III. These molecules (referred to as PsnRNA) are synthesized during meiotic prophase, when chromosomes are undergoing homologous pairing or are already paired. Accessibility to the meiotically active DNA sequences (P DNA) depends on an as-yet-undefined alteration in chromatin structure. PsnRNA is a critical factor in the alteration; it cannot be replaced by other forms of RNA. The specificity of the chromatin sites altered by PsnRNA appears to be a function of sequence complementarity between it and P DNA. Under in vivo conditions the effective action of PsnRNA depends on homologous chromosome pairing. Chromatin sites housing P-DNA sequences in nuclei isolated from cells lacking homologous pairing are not affected by meiotic endonuclease or DNAse II. Accessibility to these sites can be effected by incubation of the nuclei with PsnRNA, but only if the nuclei are from zygotene-pachytene cells. Analyses of pachytene nuclei preincubated with PsnRNA indicate that PsnRNA renders chromatin accessible to at least two endonucleases, meiotic endonuclease and DNAase II, and that it also limits such accessibility to regions housing the complementary P-DNA sequences.
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PMID:Small nuclear RNA molecules that regulate nuclease accessibility in specific chromatin regions of meiotic cells. 617 41

Employing enzymatic reactions containing reverse transcriptase and appropriately defined substrates, we have demonstrated that the tRNATrp primer molecule required for the initiation of DNA synthesis is cleaved from viral DNA by an enzymatic activity associated with the reverse transcriptase molecule. Since the alpha subunit of reverse transcriptase facilitates release of the tRNATrp primer from viral DNA and this activity is inhibited by a known inhibitor of reverse-transcriptase-associated RNAase H, it appears that the RNAase H activity, rather than the DNA endonuclease activity, is involved in this reaction. The cleavage site for RNAase H-mediated removal of the tRNATrp primer from viral DNA is located at or near the tRNATrp-viral DNA junction, and transcription of most, if not all, of the tRNATrp-binding site into (+) polarity DNA occurs before RNAase-H-mediated cleavage takes place. These studies indicate that an additional function can be ascribed to the reverse-transcriptase-associated RNAase H activity, which in this instance acts like an endonuclease, not requiring the unblocked termini of an RNA-DNA hybrid molecule for its activity.
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PMID:Mechanism of release of the avian rotavirus tRNATrp primer molecule from viral DNA by ribonuclease H during reverse transcription. 618 6

As a starting point for the study of the biosynthesis of polyadenylated RNA in bacteria, the characteristics of RNA synthesis by cells of Escherichia coli B made permeable to small molecules by treatment with toluene were examined. Such cells mediated the incorporation of radiolabeled ribonucleoside triphosphates into RNA in a reaction that was sensitive to inhibitors of RNA polymerase and required the simultaneous presence of the four ribonucleoside triphosphates. Between 10 to 15% of the RNA synthesized under these conditions was polyadenylated as shown by affinity chromatography on oligo(dT)-cellulose. The presence of orthophosphate or dADP, inhibitors of polynucleotide phosphorylase, had no effect on the reaction and the rate of RNA synthesis was indistinguishable in the polynucleotide phosphorylase-deficient strain PR-7 and in its otherwise isogenic parent strain PR-100. The poly(A) tracts associated with the newly synthesized RNA could be isolated after exhaustive digestion with pancreatic and T1 ribonucleases and accounted for 14% of the poly(A)-RNA. At least 74% of the poly(A) sequences were located at the 3' ends of RNA molecules and their weight-average length was 48 nucleotide residues. The size distribution of total RNA and poly(A)-RNA synthesized in the toluenized cell system was similar to that of the corresponding pulse-labeled fractions derived from growing cultures. The sequence complexity of poly(A)-RNA and unadenylated RNA synthesized in toluenized cells with [alpha-32P]CTP as the labeled substrate was analyzed by hybridization to fragments of Escherichia coli B DNA generated by digestion with EcoRI restriction endonuclease and immobilized on nitrocellulose sheets. Both RNA fractions hybridized with many DNA fractions, the hybridization patterns being similar with poly(A)-RNA and unadenylated RNA. This indicated that many different types of RNA transcripts synthesized in toluenized cells were subject to polyadenylation, but that polyadenylation was incomplete so that each transcript was present in both an adenylated and an unadenylated state.
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PMID:Synthesis of polyadenylate-containing RNA in vitro in permeable cells of Escherichia coli B. 619 64

The effect of dimethylnitrosamine on functional activities of liver chromatin was studied in mice. After a single dose of dimethylnitrosamine injected i.v. (25 mg/kg body wt, 45 min before sacrifice) liver nuclei were isolated and incubated with micrococcal nuclease (EC 3.1.4.7) to an acid-solubility of 2.5% of total DNA. Chromatin was fractionated into a 1,200 g pellet P1, 102,000 g pellet P2 and supernatant fraction S2. Chromatin-bound RNA polymerase I plus III activity decreased 15% in the P1 and 25% in the P2 fraction. No changes in activity were observed in the S2 fraction. Chromatin-bound RNA polymerase II activity decreased 19% in the P1, 49% in the P2 and 32% in the S2 fraction. Heparin stimulated RNA polymerase II activity decreased 10% in the P1 and 44% in the P2 fraction. Formation of initiation in nuclear lysates with RNA polymerase from Escherichia coli increased after administration of dimethylnitrosamine suggesting an increase in the number of sites available for the start of new RNA chains. The results show that limited digestion of nuclei with endonuclease cleaves chromatin regions which are more affected by dimethylnitrosamine than the total chromatin suggesting a non-random effect of the hepatotoxin on chromatin. Modifications of the DNA template by dimethylnitrosamine is indicated by the change in number of initiation complexes.
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PMID:Non-random effect on RNA synthesis in liver chromatin by administration of dimethylnitrosamine to mice. 619 51


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