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)

In transient expression assays, the adenovirus E1B 19-kilodalton (19K) tumor antigen increases expression from viral promoters and the promoter for the cellular 70-kilodalton heat shock protein (hsp70). To study the mechanism of this effect, we constructed HeLa cell lines that contain stably integrated copies of the 19K gene. Compared with a 19K- control cell line, 19K+ cells produced a significantly higher level of expression from every promoter introduced into the cells by transfection. The 19K protein also increased expression of an RNA polymerase III-transcribed gene but did not affect the level of expression of the endogenous hsp70 gene. The rate of transcription from transfected promoters, as measured by a nuclear run-on assay, was higher in the 19K+ cells than in the 19K- control cells. Furthermore, the level of plasmid DNA remained higher in the 19K+ cell line, suggesting that the 19K protein stabilizes transfected plasmid DNA. The elevated DNA levels seemed to account in full for the increased transcription. The role of the 19K protein in increasing gene expression during viral infection was found to be due to a replication-dependent increase in viral DNA levels. Thus, the 19K protein activates transcription indirectly by producing a higher level of viral or plasmid DNA. The DNA stabilization function of the 19K protein is probably related to the protective role of the 19K protein during viral infection and represents the first example of a viral oncogene product that modulates gene expression by regulating viral and plasmid DNA levels.
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PMID:The adenovirus E1B 19-kilodalton protein stimulates gene expression by increasing DNA levels. 253 Dec 84

Protein kinase C (PKC) was purified to near homogeneity from human leukemia ML-1 cells. The purified enzyme showed a single polypeptide band of 80 kDa on SDS-polyacrylamide gel after electrophoresis, and was totally dependent on Ca2+/phospholipid for activity. Diacylglycerol and the tumor-promoting on Ca2/phospholipid for activity. Diacylglycerol and the tumor-promoting phorbol esters stimulated the enzyme activity. Autophosphorylation of PKC purified from phenyl-Sepharose column showed both 80- and 37 kDa polypeptides. Further fractionation of PKC on a hydroxyapatite column revealed two peaks of enzyme activity, indicating that there may be two different forms of protein kinase C present in human leukemia cells. The purified PKC was used to phosphorylate RNA polymerase II of human leukemia cells in vitro and the autoradiogram showed that RNA polymerase II large subunits (240, 220 and 150 kDa) were phosphorylated in a time-dependent manner.
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PMID:Isolation and purification of protein kinase C from human leukemia ML-1 cells phosphorylation of human leukemia RNA polymerase II in vitro. 275 42

Nucleotide sequence analysis of a cDNA clone corresponding to the XBL-I open reading-frame of bovine leukemia virus (BLV) revealed that the AUG initiation codon was located 44 bases downstream from that of the env gene and was part of the p34x mRNA splice donor. . .ATGG/GTAA at the end of the pol gene sequence. RNA from this clone was synthesized in vitro by the SP6 RNA polymerase and translated into a 34,000 mol wt protein in rabbit reticulocyte lysates. The protein (p34x) is recognized in Western blots by most sera of BLV-infected sheep and tumor-bearing cattle, by an anti-synthetic peptide rabbit serum, and by the serum of a rabbit immunized by XBL-I RNA programmed reticulocyte lysates. Both sera react with a 34,000 mol wt protein present in nuclei of BLV-infected cells.
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PMID:Expression of a cDNA clone corresponding to the long open reading frame (XBL-I) of the bovine leukemia virus. 282 Jan 39

The effects of corticotropin releasing factor (CRF) on pro-opiomelanocortin (POMC) gene expression were investigated in an anterior pituitary corticotrophic tumor cell line, AtT-20/D16-16. The results of mRNA dot blot hybridization assays suggested that CRF, at a concentration of 10(-7) M, positively regulates the expression of the POMC gene in AtT-20 cells in a concentration-dependent fashion. Evaluation of the time course of this effect indicated that CRF had a biphasic mode of action. CRF and alpha-amanitin (inhibitor of RNA polymerase II activity) were also found to affect POMC mRNA levels in a concentration-dependent fashion. Eight-bromo-cyclic adenosine monophosphate (8-Br-cAMP) produced biphasic effects on POMC mRNA levels, supporting evidence of a role for cAMP as a second messenger in the regulation of POMC gene expression. It was also found that alpha-amanitin negatively regulated basal and CRF-stimulated POMC mRNA levels at both the 2 hr and 24 hr time periods, supporting evidence for positive regulation of POMC by CRF at the transcriptional level.
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PMID:CRF and cAMP regulation of POMC gene expression in corticotrophic tumor cells. 282 45

Cytological staining with silver nitrate (AgNO3) has proved useful for the localization of nucleoli in interphase nuclei, as well as of nucleolus organizer regions (NORs) in metaphase chromosomes. The affinity of interphase nucleoli and chromosomal NORs to silver is a direct measure of the ongoing transcriptional activity of the rRNA genes or their activity during the preceding interphase, respectively. Correspondingly, human autoantibodies directed against chromatin-associated RNA polymerase I (RPI) should also be of value in the investigation of transcribed rRNA genes. Indirect immunofluorescence using the anti-RPI antibody as a probe has been employed successfully to visualize the chromosomal distribution of NORs in various mammalian species, as well as in human tumor cells. Immunofluorescence staining even permits the identification of heteromorphisms and small aberrations of the chromosomal NORs. The fluorescent intensity of interphase nucleoli is correlated with the different stages of nucleolar activation. In male gametogenesis, RPI-positive granules are present during meiotic prophase up to pachytene, as well as during the early and middle spermatid stages.
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PMID:Immunocytogenetics: localization of transcriptionally active rRNA genes in nucleoli and nucleolus organizer regions by use of human autoantibodies to RNA polymerase I. 305 54

When murine resting B cells are polyclonally stimulated by bacterial lipopolysaccharide (LPS) in vitro for a short period of 4 days, they are activated to DNA synthesis and cell division, and they also differentiate to immunoglobulin (Ig)-secreting plasma cells. These two events are accompanied with several qualitative changes at the Ig mRNA level: the disappearance of delta mRNA after stimulation, the switch from membrane to secretory form of mu-mRNA, and the late appearance of IgM joining chain (J-chain) mRNA. There is also a quantitative increase of Ig-gene expression at the level of: Ig gene transcription, mu-, kappa- and J-chain mRNA accumulation, and Ig translation and secretion. A comparison of Ig transcription rates before and in the course of LPS stimulation, as determined by in vitro transcriptional run-on assays, has shown that there is a large increase of the RNA polymerase density on both mu- and kappa-loci (30-60-fold), which is quantitatively comparable with the accumulation of both mu- and kappa-mRNAs at the steady state mRNA level. These data therefore suggest that former results obtained with tumor cells regarding post-transcriptional control of Ig gene expression do not reflect the physiological behavior of normal B cells with respect to the molecular events of B cell triggering. We also propose that additional molecular events such as RNA processing and the transcriptional activation of J-chain gene might be essential for controlling the maximal transcriptional rate across the Ig loci.
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PMID:Transcriptional control of mu- and kappa-gene expression in resting and bacterial lipopolysaccharide-activated normal B cells. 311 52

The murine gene pro1 confers susceptibility to tumor promoters upon transfection into an insensitive host cell. Nucleotide analysis over a minimally active domain of 1049 bp reveals signals expected for a gene transcribed by RNA polymerase II (RNAPII). Similar analysis of the complementary strand shows intragenic signals characteristic of genes transcribed by RNA polymerase III (RNAPIII). We have previously characterized a small, pro1-homologous transcript that is constitutively expressed at lower levels in promotion-insensitive JB6 epidermal cells as compared to promotion-sensitive and transformed clonal variants. To identify whether the pro1 RNAPII or RNAPIII transcription unit encodes the pro1-homologous RNA, RNA probes specific for each of the predicted transcripts were generated. The RNA probe specific for the pro1 RNAPIII transcription unit was found to detect the pro1-hybridizing RNA. Ligating the pro1 RNAPII 5'-flanking region to an interferon gamma reporter sequence failed to induce synthesis of the reporter protein. In addition, pro1 transcripts generated from the predicted RNAPII and RNAPIII transcription units were untranslatable in rabbit reticulocyte lysates. These data are consistent with pro1 associated tumor promotion occurring not through an RNAPII intermediate, but through an RNAPIII intermediate.
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PMID:Evidence that mouse promotion-sensitivity gene pro1 is transcribed by RNA polymerase III. 314 26

The muscle wasting which occurs in animals bearing a transplantable tumour is accompanied by a decrease in the level of protein synthesis and a loss in RNA. This paper examines the behaviour of RNA polymerases I and II (EC 2.7.7.6) in nuclei isolated from skeletal muscle of rats bearing a Walker 256 carcinoma. Marked decreases were observed in template-engaged RNA polymerase I and II activities and in free RNA polymerase I activity. Free RNA polymerase II activity was unaltered. When assays were carried out at high (NH4)2SO4 concentration or in the presence of heparin the diminished RNA polymerase I activity was still apparent, but heparin and high ionic strength overcame the inhibition of RNA polymerase II. Loss of RNA polymerase I activity was associated with a decrease in the number of template-engaged enzyme molecules and in the polynucleotide elongation rate. The number of template-engaged RNA polymerase II molecules was unaltered by tumour growth, but the polynucleotide elongation rate was significantly reduced. No evidence was obtained for any alteration in ribonuclease activity in nuclei or whole muscles of tumour-bearing rats. These results demonstrate an effect of the tumor on transcription in skeletal muscle of its host.
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PMID:Response of skeletal muscle RNA polymerases I and II to tumour growth. 316 55

In the present study the effect of all-trans-retinoic acid (RA) on nuclear RNA polymerase activity in N-methyl-N-nitrosourea (MNU)-induced mammary tumors was investigated. Three experimental protocols were used. (1) The tumor mince was incubated with 1 microM RA for 30 min at 30 degrees C; the RNA polymerase activity was measured in the purified nuclei and compared with control nuclei. (2) In order to evaluate the influence of retinoic binding protein on enzyme activity, mammary tumor nuclei were incubated with RA bound cytosolic retinoic acid binding protein complex (RA-CRABP) at 25 degrees C for 30 min. This step allows the complex to translocate into the nuclei. The enzyme activity in these nuclei was compared with the nuclei pre-incubated with buffer or cytosol. (3) Finally, the influence of the addition of RA-CRABP complex directly into the RNA polymerase reaction mixture was determined and compared with appropriate controls. Results indicated that the RNA polymerase activity in the nuclei of RA treated tissue as well as in the nuclei subsequent to the translocation step was significantly reduced. However, the addition of RA-CRABP into the reaction mixture did not alter the enzyme activity. These results suggest that alteration of RNA polymerase activity may be an essential step in the retinoid action in mammary tissues.
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PMID:Effect of all-trans-retinoic acid on nuclear RNA polymerase activity in chemically-induced rat mammary tumors. 318 28

Miller-Dieker syndrome (MDS), a disorder manifesting the severe brain malformation lissencephaly ("smooth brain"), is caused, in the majority of cases, by a chromosomal microdeletion of the distal short arm of chromosome 17. Using human chromosome 17-specific DNA probes, we have begun a molecular dissection of the critical region for MDS. To localize cloned DNA sequences to the MDS critical region, a human-rodent somatic cell hybrid panel was constructed which includes hybrids containing the abnormal chromosome 17 from three MDS patients with deletions of various sizes. Three genes (myosin heavy chain 2, tumor antigen p53, and RNA polymerase II) previously mapped to 17p were excluded from the MDS deletion region and therefore are unlikely to play a role in its pathogenesis. In contrast, three highly polymorphic anonymous probes, YNZ22.1 (D17S5), YNH37.3 (D17S28), and 144-D6 (D17S34), were deleted in each of four patients with visible deletions, including one with a ring chromosome 17 that is deleted for a portion of the single telomeric prometaphase subband p13.3. In two MDS patients with normal chromosomes, a combination of somatic cell hybrid, RFLP, and densitometric studies demonstrated deletion for YNZ22.1 and YNH37.3 in the paternally derived 17's of both patients, one of whom is also deleted for 144-D6. The results indicate that MDS can be caused by submicroscopic deletion and raises the possibility that all MDS patients will prove to have deletions at a molecular level. The two probes lie within a critical region of less than 3,000 kb and constitute potential starting points in the isolation of genes implicated in the severe brain maldevelopment in MDS.
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PMID:Molecular detection of microscopic and submicroscopic deletions associated with Miller-Dieker syndrome. 318 30

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