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)

During a study on the role of cyclic nucleotides on the RNA polymerase activities of isolated fetal calf liver nuclei, it was observed that cGMP enhanced the RNA polymerase activity in the presence of Mg++ at low ionic strength, conditions which are appropriate for the measurement of the RNA polymerases I and III. However, the cGMP-dependent stimulation was sensitive to low concentrations of alpha-amanitin, indicating an effect on the activity of the RNA polymerase II. For this reason the effect of cGMP was tested again using purified RNA polymerase II preparations from calf thymus devoid of RNA polymerases I and III. cGMP stimulated activity of the purified RNA polymerase II at concentrations of 1 and 10 nM. cGMP also caused a small but significant stimulation of the protein kinase activity associated with the enzyme preparations of the RNA polymerase used.
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PMID:Effect of cGMP on RNA polymerase II activities in fetal calf liver nuclei and in purified enzyme preparations. 609 9

The activities of the three DNA-dependent RNA polymerases from a rapidly growing rat tumour, Morris hepatoma 3924A, and from rat liver were examined. The activity of RNA polymerase I was higher in the tumour than in the liver. The enhanced capacity for RNA synthesis was a result of a higher concentration of polymerase I in the tumour as well as of an activation of this enzyme in vivo. The possibility that the high specific activity of the hepatoma polymerase I resulted from phosphorylation was investigated. Two major cyclic-AMP-independent nuclear casein kinases (NI and NII) were identified; the activity of protein kinase NII in the tumour was ten times that in liver. Protein kinase NII was capable of activating and phosphorylating RNA polymerase I in vitro. This kinase could also stimulate RNA polymerase II activity, although to a lesser extent than RNA polymerase I. RNA polymerase III was not affected by protein kinase NII. Protein kinase NII was tightly associated with polymerase I and was found even in purified preparations of the polymerase. Antibodies against both RNA polymerase I and protein kinase NII were present in sera of patients with certain rheumatic autoimmune diseases. These results imply that RNA polymerase I and protein kinase NII are in close association in vivo as well as in vitro and that polymerase phosphorylation may regulate the rate of ribosomal RNA synthesis in the cell.
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PMID:Phosphorylation of RNA polymerases: specific association of protein kinase NII with RNA polymerase I. 613 1

One of the large subunits (220 000 daltons) of the wheat embryo RNA polymerase II was demonstrated to undergo phosphorylation with [gamma-32P]ATP in a reaction catalysed by a homologous protein kinase preparation. The same subunit was also observed to be phosphorylated in vivo, at the onset of germination. The phosphorylation resulted in a moderate increase of the RNA polymerase activity.
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PMID:Phosphorylation in vitro and in vivo of the wheat embryo RNA polymerase II. 615 54

The regulatory mechanism of transcription involved in the phosphorylation of a 13 kDa non-histone chromatin protein from calf thymus, which is the most effective phosphate acceptor for cyclic AMP-independent protein kinase purified from the nuclei of mouse spleen cells, by the kinase has been studied in vitro. An analytical study of the circular dichroism (CD) spectra of the 13 kDa protein under different conditions showed that it underwent a major conformational change when incubated with DNA. The presented data suggest that the DNA-induced conformational change may result in a great increase of the 13 kDa protein phosphorylation by the kinase in vitro. Mg2+ (8-10 mM) enhanced the binding of the protein to DNA. Furthermore, the phosphorylated 13 kDa protein stimulated elongation of RNA synthesis by RNA polymerase II from calf thymus. However, neither the 13 kDa protein nor the phosphorylated 13 kDa protein had any affect on DNA synthesis. The available evidence suggests that the 13 kDa protein may play a role in the regulation of transcription through its phosphorylation by the kinase in vitro.
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PMID:Biochemical characterization of a specific phosphate acceptor of nuclear cyclic AMP-independent protein kinase. 618 76

The interaction between antibodies directed against RNA polymerase I purified from Morris hepatoma 3924A and homologous RNA polymerase II was investigated. The activity of partially purified polymerase II was inhibited by the antibodies. In contrast, the reaction catalyzed by the purified enzyme was not affected. Partially purified polymerase II preparations contained a protein kinase activity. Sucrose gradient centrifugation in the presence of 0.3 M KCl resulted in complete separation of RNA polymerase II from protein kinase as well as in complete loss of sensitivity to the anti-RNA polymerase I antibodies. The protein kinase possessed reaction characteristics similar to those of the NII protein kinase (Rose, K.M., Bell, L.E., Siefken, D.A. and Jacob, S.T. (1981) J. Biol. Chem. 256, 7468-7477) which is associated with hepatoma RNA polymerase I (Rose, K.M., Stetler, D.A. and Jacob, S.T. (1981) Proc. Natl. Acad. Sci. U.S.A. 78, 2833-2837). The activities of both kinases were inhibited to the same extent by anti-RNA polymerase I antibodies and polypeptides of Mr 42 000 and 25 000, present in both kinase preparations, formed immune complexes with the antisera. Readdition of protein kinase NII to purified polymerase II resulted in phosphorylation of the polymerase and a concomitant enhancement of RNA synthesis. After addition of the kinase, RNA polymerase II activity was again sensitive to anti-RNA polymerase I antibodies. Upon reacting with protein kinase NII, RNA polymerase II polypeptides could be detected in immune complexes with anti-RNA polymerase I antibodies. These data indicate that protein kinase NII is associated with RNA polymerase II during early stages of purification and is at least partially responsible for the immunological cross-reactivity of RNA polymerases I and II.
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PMID:Protein kinase NII. Interaction with RNA polymerase II and contribution to immunological cross-reactivity of RNA polymerases I and II. 618 63

Purified virions of milker's nodule virus, a parapoxvirus, were shown to contain an RNA polymerase, a nucleotide phosphohydrolase, and a protein kinase associated with or encapsulated within the DNA-containing core of the virus. In vitro, the activated viral RNA polymerase transcribed only 7 to 8% of the genome, in the form of 8S to 14S polyadenylated RNA molecules which were complementary to sequences present in milker's nodule virus DNA but not vaccinia virus DNA or DNA prepared from the host cells in which the virus was propagated. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic analysis showed that in vitro, the activated viral protein kinase phosphorylated viral polypeptides of 95, 60, 33.5, 15, and 13.8 kilodaltons.
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PMID:Some enzymatic activities associated with purified parapoxvirions. 618 61

Polyamines are well-known ubiquitous components of living cells. Although these polycations have been implicated in the regulation of major cellular functions such as DNA, RNA and protein synthesis occurring during cellular proliferation and/or differentiation processes, their mechanism of action at the molecular level has remained obscure. On the other hand, protein phosphorylation has emerged as a regulatory process of prime importance in cellular regulation. Data have recently been presented suggesting that polyamines may express at least part of their biological action through an effect upon selective protein phosphorylation systems. Two types of polyamine-sensitive protein kinases have been characterized in the last few years. The best known in molecular terms is the widespread casein kinase G (also termed casein kinase II), which represents a multifunctional protein kinase, at present classified as a messenger-independent activity. The other is a polyamine-dependent nuclear ornithine decarboxylase kinase characterized in Physarum polycephalum and several mammalian tissues. Both protein kinases are activated by polyamines in vitro at concentrations compatible with a physiological role, by a mechanism which most likely also involves an effect through the protein substrate conformation. Preliminary evidence suggests that both kinases may be implicated in the regulation of DNA-dependent RNA polymerase activities, although several other potential substrates have been suggested for casein kinase G. Another suggestion is that these kinases may also participate in the post-translational regulation of ornithine decarboxylase, the rate-limiting step in the polyamine biosynthetic pathway. A novel class of protein kinase activities may thus be defined as polyamine-mediated phosphorylation systems for which polyamines may function as intracellular messenger. Although their biological significance remains to be fully established, especially with regard to the definition of their specific intracellular target(s) and subsequent biological functions, these systems will be interesting to consider in future studies aimed at understanding the role of polyamines in cell regulation.
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PMID:Polyamine-mediated protein phosphorylations: a possible target for intracellular polyamine action. 619 Jun 90

The influence of cAMP-dependent pig brain protein kinase and its subunits on transcription in vitro was studied. The increase in the template activity of chromatin isolated from the nuclei after treatment with the catalytic subunit was observed. The regulatory subunit of protein kinase was found to increase the number of binding sites for RNA polymerase on chromatin. The cAMP-dependent pig brain protein kinase was found to phosphorylate the sigma-factor of Escherichia coli RNA polymerase. This phosphorylation led to the increase of the RNA polymerase activity on phage lambda DNA. The nuclear translocation of the protein kinase and its subunits was shown to take place. In the cells with a low cAMP level (SV40 3T3) the transfer of the regulatory subunit to the nucleus was not detected. Only upon addition of cAMP and a subsequent formation of the cAMP-regulatory subunit complex, nuclear translocation was observed in these cells. The dependence of nuclear translocation of the cAMP-dependent protein kinase on cAMP level in the cell is proposed.
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PMID:[Nuclear translocation and effect of cAMP-dependent protein kinase on transcription]. 626 Feb 40

The experiments were designed to investigate some details of the action of 3-methylcholanthrene (3-MC) on the regulation of transcription. After a single intraperitoneal dose of 3-MC a significant increase in the activities of both nucleolar and nucleoplasmic protein kinases in hepatic cells of young rats was found. The maximal stimulation took place 24 hr after the administration of 3-MC and the extent of activation was much greater in the nucleolar fraction. There is a significant elevation of the activities of both functional forms, free and template-engaged, of RNA polymerase A 24 hr after a single injection of 3-MC. Free and engaged forms of extranucleolar RNA polymerase B show a different behaviour: after 24 hr of 3-MC administration the engaged form is markedly enhanced while the activity of the free enzyme shows a significant decrease. The more moderate increase in total RNA polymerase B activity is obviously preceded by a transfer of the enzyme from 'free' to 'engaged' form. Since the enhancement of protein kinase activities was accompanied by the stimulation of nuclear RNA polymerases we suggest that both kinds of enzymes are involved in an epigenetic mechanism of the inducing action of 3-MC on cytochrome P1-450.
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PMID:Influence of 3-methylcholanthrene on liver nucleolar and nucleoplasmic activities of protein kinases and RNA polymerases. 628 80

The effect of Shope fibroma virus (SFV) infection on host DNA synthesis was investigated. The cytocidal strain, SFV-I, inhibited the incorporation of [3H]thymidine into nuclear DNA very shortly (2 h) after infection, whereas the noncytocidal strain, SFV-W, did so later (10 h postinfection) and to a lesser extent. Furthermore, a two- to threefold stimulation of host DNA synthesis was recorded in SFV-W-infected cells 3 to 4 h after infection. Since virion-associated nucleases have been implicated in the shutoff of host synthesis, these and other enzymatic activities were measured in purified virion preparations. The SFV strains and vaccinia virus contained equivalent amounts of DNA-dependent RNA polymerase, ATPase, and protein kinase activities. However, in SFV-W the pH 4.5 exonuclease activity was lower than in SFV-I and vaccinia virus, and the level of pH 7.8 endonuclease was almost undetectable. To test whether the lack of endonucleolytic activity had some effect on the removal of the cross-links in the parental DNA that occurs after viral penetration, the fate of the virion SFV DNA was followed. The majority (80%) of the SFV-I and SFV-W DNA molecules extracted after viral adsorption sedimented in alkaline sucrose gradients as cross-linked. After 3 h of infection, 75% of the SFV-I DNA molecules lacked cross-links, whereas 78% of the SFV-W DNA still remained cross-linked. The same results were obtained when the presence of cross-links was tested in restriction fragments. Taken together, these results indicate that virion-associated nucleases are involved in the early shutoff of host DNA synthesis and in the elimination of cross-links from the parental viral DNA.
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PMID:Shope fibroma virus. II. Role of the virion-associated nucleases. 628 6

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