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)

Incubation with protein kinase NII did not result in phosphorylation or inactivation of mouse kidney ornithine decarboxylase. Partially purified ornithine decarboxylase preparations contained a protein kinase activity and stimulated the activity of RNA polymerase I. However, these properties were due to contaminating protein(s) since further purification reduced the kinase activity and removal of the ornithine decarboxylase with a specific antiserum did not abolish the ability to stimulate RNA polymerase I. Antibodies to RNA polymerase I did not interact with ornithine decarboxylase and antibodies to ornithine decarboxylase did not interact with RNA polymerase I. These results indicate that: a) mammalian ornithine decarboxylase activity is not regulated by phosphorylation by protein kinase NII or the contaminating kinase, and b) the ability of impure preparations of ornithine decarboxylase to stimulate RNA polymerase I is due to a contaminating unrelated protein.
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PMID:Absence of inactivation or phosphorylation of ornithine decarboxylase by nuclear protein kinase NII and of immunological cross-reactivity between RNA polymerase I and ornithine decarboxylase. 671 90

Androgens stringently regulate the concentrations of the polyamines, spermine and spermidine, in rat ventral prostate. The intracellular distribution of the polyamines is also dependent on the androgenic milieu; a small proportion of polyamines is associated tightly with the nucleus. Soluble nucleolar chromatin contains RNA polymerase A and protein kinase activities, both of which are regulated by androgens and markedly stimulated by polyamines. It remains to be established whether the polyamines modulate these enzyme moieties directly, or whether the phosphorylation of other nucleolar proteins plays a crucial role in the androgenic regulation of rRNA synthesis. Using a protocol centered on affinity chromatography, the purification of the androgen receptor protein to a state approaching homogeneity has been accomplished. The purified receptor stimulates the RNA polymerase A and protein kinase activities associated with prostate nucleolar chromatin. The significance of these findings in the light of correct concepts of steroid hormone action is discussed.
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PMID:Enhanced transcription of rRNA genes by purified androgen receptor complexes in vitro. 688 53

RNA polymerase I was purified to homogeneity from Morris hepatoma 3924A. Purified RNA polymerase I contained a protein kinase activity but comigrated with the polymerase in nondenaturing gels. RNA polymerase II, purified from the same hepatoma, lacked protein kinase activity. Analysis of the subunit composition of the RNA polymerase I showed the presence of eight polypeptides: S1, Mr 190,000; S2, Mr 120,000; S3, Mr 62,000; S4, Mr 42,000; S5, Mr 24,600; S6, Mr 21,000; S7, Mr 19,500; and S8, Mr 17,500. Antibodies prepared against purified polymerase I specifically inhibited RNA synthesis catalyzed by RNA polymerase I. When subunits of the enzyme were covalently linked to diazobenzyloxymethyl paper, complexes between the antibody preparation and S1-S6 were visualized. No immune complexes were formed between RNA polymerase I antibodies and RNA polymerase II subunits. The antibody preparation was able to inhibit both the protein phosphorylation catalyzed by RNA polymerase I and that catalyzed by a nuclear kinase (NII) purified from the same hepatoma. The two polypeptides of the nuclear kinase--Mr 42,000 and 24,600 (identical in size to S4 and S5 of polymerase I)--formed visible complexes with the RNA polymerase I antibodies. Both S4 and S5 of the polymerase contained an ATP binding site, a property associated with protein phosphorylation and also exhibited by the polypeptides of the purified kinase. These data suggest that polypeptides of Mr 42,000 and 24,600 associated with polymerase I are responsible for its kinase activity.
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PMID:Protein kinase activity of RNA polymerase I purified from a rat hepatoma: probable function of Mr 42,000 and 24,600 polypeptides. 694 6

Both calf thymus RNA polymerases I and II contain small subunits of molecular weight nearly identical with the subunits of casein kinases II and I, respectively. Antibodies prepared against calf thymus casein kinase II react with the Mr = 44,000 and 26,000 subunits of protein kinase but do not react with the Mr = 44,000 and 25,000 subunits of RNA polymerase I. These RNA polymerase I and casein kinase II subunits were purified by polyacrylamide gel electrophoresis, labeled with 125I and peptide maps generated. The tryptic peptide map of neither the Mr = 44,000 nor the 25,000 subunit of RNA polymerase I resemble the map obtained for the subunits of similar size in casein kinase II. The peptide maps generated from the Mr = 25,000 subunits of RNA polymerases I and II are, however, identical. Calf thymus RNA polymerase I, prepared by standard procedures is contaminated with casein kinase II which can be removed by rechromatography on DEAE-Sephadex. Antibodies prepared against calf thymus protein kinase I also fail to interact with the RNA polymerase II subunit of comparable size. Furthermore, peptide maps indicate that these subunits are not structurally related.
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PMID:Calf thymus RNA polymerases I and II do not contain subunits structurally related to casein kinases I and II. 694 5

RNA polymerase II was purified from Morris hepatoma 3924A by a series of ion-exchange and affinity column chromatographic fractionations, followed by sucrose gradient centrifugation in the presence of 0.3 M KC1. Purified RNA polymerase II had a specific activity of greater than 400 nmol of UMP incorporated (30 min)-1 (mg of protein)-1 by using double-stranded DNA as template. The purified enzyme contained five polypeptides (Mr 214 000, 140 000, 33 000, 25 000, and 21 000) that were present in molar quantities and two additional polypeptides (Mr 19 000 and 18 000) that had a combined molar ratio of 1.0. The cyclic AMP independent nuclear protein kinase NII, also purified from hepatoma 3924A, was able to phosphorylate RNA polymerase II polypeptides of Mr 214 000, 140 000, and 21 000. Phosphorylation of the polymerase was accompanied by enhanced transcription of double-stranded DNA, heat-denatured DNA, and poly[d-(A-T)]. The elevation in RNA polymerase activity was dependent upon the presence of hydrolyzable ATP and resulted from an increased number of RNA molecules synthesized in vitro. The average length of RNA chains was not affected by the kinase. Under similar conditions, protein kinase NII also stimulated homologous RNA polymerase I. In contrast to the phosphorylation of polymerase II, modification of polymerase I resulted in an increase in the average size, but not number, of RNA chains synthesized. The specificity of the NII kinase-catalyzed reaction was demonstrated by the inability of another homologous protein kinase, NI, to phosphorylate or activate RNA polymerase II.
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PMID:Phosphorylation of deoxyribonucleic acid dependent RNA polymerase II by nuclear protein kinase NII: mechanism of enhanced ribonucleic acid synthesis. 711 96

In nuclei and nucleoli of the slime mold Physarum polycephalum, ornithine decarboxylase (OrnDCase) (Mr 70,000) is phosphorylated by a protein kinase reaction that is dependent on spermidine and spermine. Putrescine antagonizes the phosphorylation. Phosphorylation of OrnDCase inhibits its capacity to catalyze decarboxylation of ornithine. The protein kinase that catalyzes this phosphorylation has many properties similar to those of nuclear protein kinase II, or type G, which has been studied by other groups. The interaction of this protein kinase with OrnDCase resembles the behavior of the OrnDCase antizyme described by other investigators. Phosphorylated OrnDCase binds to purified, palindromic rDNA isolated from nucleoli. It also stimulates transcription of the ribosomal genes by RNA polymerase I in a chromatin form of rDNA. It does not stimulate transcription in a purified, homologous transcription system comprised of RNA polymerase I, rDNA, and phospho-OrnDCase. Thus, phospho-OrnDCase may have a function in promoting rRNA gene transcription but the detailed mechanism is yet unclear. The polyamine-dependent protein kinase and its natural substrate of 70,000 daltons have been demonstrated in other eukaryotic cells, including bovine spermatozoa and rat liver nuclei, and in Ehrlich ascites tumor cells, where the protein kinase is induced by interferon. This phosphorylation system appears to be widely distributed and conserved among eukaryotic species.
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PMID:Posttranslational control of ornithine decarboxylase by polyamine-dependent protein kinase. 714 Oct 3

The polycyclic aromatic hydrocarbon 3-methylcholanthrene (3-MC) is a well known inducer of the microsomal mixed function oxidase enzyme system in rat liver cells. It seems probable that the inductive action of 3-MC is realized, at least partly, at the transcriptional level of protein synthesis regulation. The present experiments indicated that in the liver of young rats there was a significant alteration in the activities of nucleolar as well as nucleoplasmic protein kinase and RNA polymerase enzymes during the first days of exposure to a single dose of 3-MC. The ultrastructural investigations showed that 3-MC treatment caused nucleolar hypertrophy and accumulation of lipid inclusions in the nucleoplasm.
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PMID:Effect of 3-methylcholanthrene on RNA polymerase and protein kinase activities and on the nuclear ultrastructure of rat liver. 722 42

We have recently purified a cyclic nucleotide-independent, heparin-sensitive nuclear protein kinase (NII) from Morris hepatoma 3924A and demonstrated an apparent relationship of this kinase to the two subunits (Mr = 42,000 and 24,600) of RNA polymerase I. When homogeneous protein kinase NII was recombined with purified homologous RNA polymerase I containing limiting quantities of endogenous kinase, RNA synthesis was stimulated as much as 5-fold during a 90-min incubation. The enhanced RNA synthesis was due to an increase in the average RNA chain length; protein kinase did not alter the number of RNA molecules synthesized by the polymerase. Phosphorylation of RNA polymerase occurred at serine and threonine moieties. Unlike the NII kinase, purified homologous NI kinase did not phosphorylate RNA polymerase I and, as a result, did not alter transcription. These data indicate that 1) RNA polymerase I is activated by protein kinase NII, 2) endogenous protein kinase NII remaining with highly purified RNA polymerase I does not fully phosphorylate RNA polymerase I in vitro, and 3) protein kinase NII is capable of regulating RNA polymerase I activity by preventing premature termination of RNA chains.
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PMID:Activation of purified hepatoma RNA polymerase I by homologous protein kinase NII. 728 32

BTF2/TFIIH from human, delta from rat, and factor b from yeast are multisubunit basal transcription factors that have been shown to be closely associated with a protein kinase capable of phosphorylating the carboxyl-terminal domain of the large subunit of RNA polymerase II (Lu, H., Zawel, L., Fischer, L., Egly, J. M., and Reinberg, D. (1992) Nature 358, 641-645; Serizawa, H., Conaway, R. C., and Conaway, J. W. (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 7476-7480; Feaver, W. J., Gileadi, O., and Kornberg, R. D. (1991) Cell 67, 1223-1230). We report here that a DNA-dependent ATPase and the previously characterized helicase (Schaeffer, L., Roy, R., Humbert, S., Moncollin, V., Vermeulen, W., Hoeijmakers, J., Chambon, P., and Egly, J. M. (1993) Science 260, 58-63) are both associated with BTF2 and reside with the p89 polypeptide subunit. The DNA requirement, the effect of Sarkosyl and staurosporine inhibitors, as well as nucleotide competition experiments, clearly distinguished ATPase/helicase from the carboxyl-terminal domain kinase. Using recombinant wild type or mutated p89/ERCC3 polypeptides and different forms of DNA template, we show the connection between ATPase and the helicase.
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PMID:The DNA-dependent ATPase activity associated with the class II basic transcription factor BTF2/TFIIH. 751 95

Several derivatives of K-252a, a protein kinase inhibitor isolated from Nocardiopsis sp., were investigated for their effects on the replication of vesicular stomatitis virus (VSV) in BHK-21 cell cultures. Among those we tested, KT5926, which preferentially inhibits the myosin light chain kinase (MLCK), suppressed the viral replication by 95-99% at 15 microM. K-252a, which inhibits a broad spectrum of cellular protein kinase, similarly affected the viral replication. Other derivatives, KT5720 and KT5823, that are known to inhibit the cAMP-dependent protein kinase (PKA) and cGMP-dependent protein kinase (PKG), respectively, did not suppress VSV replication even at a high concentration as 15 microM. None of these inhibitors affected the Sindbis virus replication in BHK-21 cells under similar assay conditions as used for VSV. KT5926 and K-252a seemed to affect the VSV replication at the step(s) after the viral invasion, resulting in decreased viral RNA synthesis. Neither substance inhibited cellular casein kinase (CK) II which is known to be involved in phosphorylation of the nonstructural (NS) protein, a non-catalytic subunit of the viral RNA polymerase. These results suggest that the inhibition of VSV replication by KT5926 and K-252a is not a secondary effect due to generalized suppression of host cell activities, and that the VSV replication requires the KT5926-sensitive function(s) in the cell which would be performed by an enzyme(s) other than CK II.
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PMID:Studies on the antiviral activity of protein kinase inhibitors against the replication of vesicular stomatitis virus. 755 Jan 28


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