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)

Patients with hepatocellular carcinoma (HCC), gastrointestinal, lung, and ovarian cancers were shown to have autoantibodies to nuclear and nucleolar antigens as detected by immunofluorescence on cell substrates. The frequency of antinuclear antibodies (ANAs) was significantly higher (P less than 0.001) in patients with HCC (57/184 = 31%) than in patients with chronic hepatitis or liver cirrhosis (25/187 = 13%). Although a range of fluorescence patterns was observed, a higher percentage of nucleolar fluorescence was detected in HCC, and three of these nucleolar antigens were identified. They were NOR-90, nucleolus organizer region doublet polypeptides of 93 and 89 kDa involved in RNA polymerase I transcription; fibrillarin, a 34 kDa protein of the nucleolar U3 ribonucleoprotein particle which is engaged in preribosomal RNA processing; and nucleophosmin/protein B23, a 37 kDa polypeptide which is associated with ribosome maturation and cellular proliferation. All these antigens are nucleolar components that are engaged in some aspect of ribosome biosynthesis. Since autoantibodies to these nucleolar antigens have also been found in systemic autoimmune diseases, they do not represent autoimmune reactions unique to cancer but might reflect reaction pathways related to immune responses that are antigen-driven. The ANA response in HCC appears to be dynamic reactions to this antigen-drive since some patients with chronic liver disease showed seroconversion to ANA positivity, marked increase in titer and/or change in antibody specificity preceding or coincident with clinical detection of HCC. These changes in ANA showed a close temporal relationship with transformation from long-established chronic liver disease to HCC.
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PMID:Nucleolar antigens and autoantibodies in hepatocellular carcinoma and other malignancies. 131 27

Nucleophosmin/B23 is a nucleolar phosphoprotein which forms oligomers. To determine the domain essential for oligomer formation, various deletion and point mutation clones of nucleophosmin/B23 were constructed. Nucleophosmin/B23 and the mutant proteins were produced by (a) coupled in vitro transcription and translation and (b) expression in Escherichia coli with T7 RNA polymerase expression vector (pET-8c). Nucleophosmin/B23 synthesized in vitro has the same peptide map as that synthesized in HeLa cells. Similarly, it formed oligomers which could be detected in SDS/PAGE and were cross-linked with nitrogen mustard in vivo. Substitution of Met5, Met7, and Met9 with Leu or deletion of five amino acids at the C-terminus abolished the oligomerization. Deletion of portions of amino acids in the middle of the molecule (amino acid residues 83-152, 117-186 and 185-240) had little effect on the oligomerization. Co-expression of the N- and C-terminal mutant clones in vitro did not produce oligomers. These results indicate that intra-molecular interactions with both the N- and C-terminal domains are essential for oligomer formation.
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PMID:Formation of nucleophosmin/B23 oligomers requires both the amino- and the carboxyl-terminal domains of the protein. 191 43

The human proliferation-associated nucleolar antigen p120 was localized to substructures within HeLa cell nucleoli by immunofluorescence and immunoelectron microscopy of cells whose nucleoli were segregated by drug treatment or extracted with nucleases. By indirect immunofluorescence, protein p120 was localized diffusely throughout all interphase nucleoli. However, high resolution immunoelectron microscopy demonstrated that protein p120 staining delineated a network of 20-30-nm diameter beaded fibrils distributed throughout the nucleolus. This distribution was unique compared to that of the nucleolar proteins p145, RNA polymerase I, or B23 which were examined simultaneously. Drug-induced segregation of nucleoli by actinomycin D or dichlorobenzimidazole riboside, followed by immunoelectron microscopy, indicated that protein p120 was concentrated at the periphery of the granular region in segregated nucleoli. In situ nuclease digestion of cells with DNase I and/or RNase A did not release p120 from the nucleolus. Instead, p120 immunoreactivity was retained within phase-dense residual nucleoli. These results provide evidence that protein p120 is associated with, and in fact delineates, a network of fibrils which is retained in the nucleolar residue fraction of proliferating cells.
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PMID:Intranucleolar localization of human proliferating cell nucleolar antigen p120. 305 5

Monoclonal antibodies directed against RNA polymerase B of the fungus Podospora comata were selected on the basis of different subunits recognition and inhibitory effect on enzyme activity. A library of 10 antibodies biased toward B180, B145, B39, B23,5 and B11 subunits was constructed. Most of these antibodies also recognize yeast, wheat germ and calf thymus RNA polymerase B. Subunits bearing antigenic determinants are not always homologous in Podospora and yeast enzyme. As some of these antibodies strongly inhibit enzyme activity they constitute potent probes for functional studies of corresponding subunits.
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PMID:Probing eukaryotic RNA polymerases B with monoclonal antibodies. 619 15

In exponentially growing cells, RNA polymerase B is exclusively form BI enzyme with several phosphorylated subunits: B220, B23 and possibly B44.5. In RNA polymerase A an average of fifteen phosphate groups are distributed on the five phosphorylated subunits: A190 (6), A43 (4), A34.5 (2), A23 (1-2) and A19 (1-2). Phosphorylation of enzyme A by a yeast protein kinase in vitro adds less than 1 mol phosphate/mol enzyme but occurs essentially at the physiological sites, as shown by a comparison of the peptide patterns obtained by limited proteolysis of subunits 32P-labelled in vivo and in vitro. No evidence was found in favor of a modulation of RNA polymerase activity in vitro or in vivo via phosphorylation.
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PMID:On the phosphorylation of yeast RNA polymerases A and B. 633 43

Satellite nucleoli of lymphocytes were studied to provide additional information on the cytochemistry of these nucleoli particularly with respect to the presence of rDNA and RNA polymerase I. According to the results of the in situ hybridization satellite nucleoli contain rDNA similarly as characteristic nucleoli. Immunostaining demonstrated that satellite nucleoli similarly as characteristic nucleoli possess RNA polymerase I in addition to proteins B23, C23 and fibrillarin. RNA of satellite nucleoli was detected in satellite as well as in characteristic nucleoli with buffered toluidine or methylene blue. The cytochemical evidence and morphology of satellite nucleoli strongly supports the supposition that these nucleoli represent solitary small nucleoli containing nucleolus organizer regions which did not participate in the formation of characteristic nucleoli.
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PMID:Cytochemistry of satellite nucleoli in human lymphocytes. 751 Sep 18

During mitosis, ribosomal genes are associated with a set of silver-stained nucleolar proteins designated Ag-nucleolar organizer region (NOR) proteins. The amount of Ag-NOR protein, estimated during interphase, may be used as marker of cell proliferation with a prognostic value for several human cancers. Our objective was to identify the Ag-NOR proteins in human transformed cell lines at specific phases of the cell cycle and in a hamster cell line that serves as model for active ribosomal transcription. During interphase, the major Ag-NOR proteins in both human and hamster cells were nucleolin and protein B23 and also proteins of 42, 40, and 29 kDa, which accounted for a small amount of the silver stain. The pIs of these proteins were between 4.5 and 5.6. During mitosis, the Ag-NOR proteins were either solubilized in the cytoplasm, distributed around the chromosomes, or associated with the ribosomal genes, i.e., in the NORs. The major Ag-NOR proteins associated with the ribosomal genes were the largest RNA polymerase I subunit, the 135-kDa NOR protein, the UBF transcription factor, and a 50-kDa protein. Less than 5% of the total nucleolin remained associated with ribosomal genes during mitosis. Using the purified RNA polymerase I complex from yeast, we demonstrate that the 190-, 43-, and 34.5-kDa subunits are Ag-NOR proteins in this species. This study demonstrates that the major Ag-NOR proteins in nucleoli during interphase are not the same as those associated with the ribosomal genes during mitosis. We conclude that the prognostic test for human cancer cell proliferation is largely based on the amount of the nucleolar proteins, nucleolin, and protein B23, which are not directly involved in ribosomal gene transcription. In contrast, the evaluation of active NORs in karyotypes during mitosis is based on the presence of some proteins of the ribosomal gene transcription machinery.
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PMID:Identification of Ag-NOR proteins, markers of proliferation related to ribosomal gene activity. 752 52

Hodgkin's disease (HD) and Ki-1 positive anaplastic large cell lymphoma (Ki-1 ALCL) appear pathologically and immunohistochemically related, and a common histogenesis has been postulated in at least some cases. The breakpoints of the t(2;5) (p23;q35) [corrected] translocation, which is reported in about 40% of Ki-1 ALCL, have recently been cloned. They involve a novel tyrosine kinase gene, ALK, at 2p23 and the nucleophosmin gene, NPM, at 5q35. Reverse transcriptase polymerase chain reaction (RT-PCR) using NPM and ALK primers consistently detects a fusion product in Ki-1 ALCL cases with the translocation. To determine if this tumor-specific genetic alteration also occurs in HD, we performed NPM-ALK RT-PCR on RNA samples extracted from 40 lymph node biopsies of HD (25 nodular sclerosis, 11 mixed cellularity, 2 lymphocyte depleted, 2 lymphocyte predominant). Using control samples, the sensitivity of the NPM-ALK RT-PCR assay was shown to be at least 1:10(4). Amplifiable template was confirmed in all samples by RT-PCR using beta-actin primers. None of the 40 cases showed the expected 177-bp RT-PCR product indicative of the translocation. We conclude that the most common primary genetic alteration in Ki-1 ALCL, the t(2;5), is absent or very infrequent in typical cases of HD. These results further support the concept that HD and Ki-1 ALCL are pathogenetically distinct entities.
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PMID:Reverse transcriptase polymerase chain reaction for the Ki-1 anaplastic large cell lymphoma-associated t(2;5) translocation in Hodgkin's disease. 752 17

The human immunodeficiency virus 1 (HIV-1) Rev transactivator protein plays a critical role in the regulation of expression of structural proteins by controlling the pathway of mRNA transport. The Rev protein is located predominantly in the nucleoli of HIV-1 infected or Rev-expressing cells. Previous studies demonstrated that the Rev protein forms a specific complex in vitro with protein B23 which is suggested to be a nucleolar receptor and/or carrier for the Rev protein. To study the role of the nucleolus and nucleolar proteins in Rev function, transfected COS-7 or transformed CMT3 cells expressing the Rev protein were examined for subcellular locations of Rev and other proteins using indirect immunofluorescence and immunoelectron microscopy. One day after transfection the Rev protein was found in most cells only in the nucleolar dense fibrillar and granular components where it colocalized with protein B23. These were designated class 1 cells. In a second class of cells Rev and B23 accumulated in the nucleoplasm as well as in nucleoli. Treatment of class 1 cells with actinomycin D (AMD) under conditions that blocked only RNA polymerase I transcription caused Rev to completely redistribute from nucleoli to the cytoplasm. Simultaneously, protein B23 was partially released from nucleoli, mostly into the nucleoplasm, with detectable amounts in the cytoplasm. In cells recovering from AMD treatment in the presence of cycloheximide Rev and B23 showed coincident relocation to nucleoli. Class 2 cells were resistant to AMD-induced Rev redistribution. Selective inhibition of RNA polymerase II transcription by alpha-amanitin or by DRB did not cause Rev to be released into the cytoplasm suggesting that active preribosomal RNA transcription is required for the nucleolar location of Rev. However, treatment with either of the latter two drugs at higher doses and for longer times caused partial disruption of nucleoli accompanied by translocation of the Rev protein to the cytoplasm. These results suggest that the nucleolar location of Rev depends on continuous preribosomal RNA transcription and a substantially intact nucleolar structure.
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PMID:The roles of nucleolar structure and function in the subcellular location of the HIV-1 Rev protein. 759 22

gp49 was originally defined as a 49-kDa surface glycoprotein preferentially expressed on mouse interleukin-3-dependent, bone marrow-derived mast cells, which are immature progenitor cells. A previously cloned cDNA (gp49A) indicated that gp49 was a member of the immunoglobulin (Ig) superfamily, and genomic DNA analysis indicated that two genes might encode a gp49 family. We have now characterized a 5.6-kilobase pair gene, gp49B, that encodes two novel gp49 cDNAs, gp49B1 and gp49B2. The two cDNAs are identical except that gp49B2 is missing exon 6, which encodes a predicted transmembrane domain. In contrast to gp49A, gp49B1 and gp49B2 have 32 additional amino acids at their C termini containing 4 of the 6 consensus amino acids of the antigen receptor homology 1 motif found on several signal-transducing members of the Ig superfamily. When COS-7 cells were transfected with either the gp49B1 or gp49B2 cDNA, only the gp49B1 transfectants bound the B23.1 monoclonal antibody that originally defined gp49. Reverse transcriptase-polymerase chain reaction analysis of the transfectants established that both transcripts were expressed, suggesting that the product of the gp49B2 transcript was not inserted in the plasma membrane. Thus, cloning of the gp49B gene has established the organization of one of the gp49 genes and provided evidence of alternate splicing of transcripts from that gene.
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PMID:Cloning of the gp49B gene of the immunoglobulin superfamily and demonstration that one of its two products is an early-expressed mast cell surface protein originally described as gp49. 813 64


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