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)

By means of immunocytochemistry performed on cryosections of cultured cells, RNA polymerase I was localized mainly to nucleolar fibrillar centers. The labelling of nucleolar dense fibrillar components was low and depended on the cell type. In contrast, DNA topoisomerase I and RNP complexes containing U3 snRNA were enriched in dense fibrillar components, their occurrence in fibrillar centers being usually much less.
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PMID:Does the synthesis of ribosomal RNA take place within nucleolar fibrillar centers or dense fibrillar components? 253 76

The genes coding for U1 RNA in the sea urchin L. variegatus are present in a 1400 base pair tandem repeat. One member of the repeat has been cloned and its sequence determined. The repeat unit contains a single copy of the gene for L. variegatus U1 RNA. This gene encodes an RNA which is 75% homologous to mammalian U1 RNA. The L. variegatus U1 RNA could assume a secondary structure similar to that proposed for other U1 RNAs. In addition the L. variegatus U1 RNA is precipitated by anti-SM and anti-RNP antisera. Analysis of the L. variegatus genomic DNA using the cloned U1 gene as a probe reveals a major and a minor type of repeat unit. The two repeated units are the same length but differ in a number of restriction enzyme sites clustered 200-500 bases down-stream from the gene. The monomer we have cloned and sequenced is a representative of the minor repeat. A sequence (GATAA) which is -41 to -37 bases 5' to the gene has homology to the putative RNA polymerase II promoter. Fifteen bases 3' of the gene is a sequence (CAAAGAAAGAAAA) which is very similar to the sequence found 3' of the sea urchin histone genes. The two Hha I, Hpa II and Ava I sites in the repeat are all unmethylated in sperm DNA.
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PMID:Structure of the sea urchin U1 RNA repeat. 258 56

Immediately after the initiation of transcription in eukaryotes, nascent RNA polymerase II transcripts are bound by nuclear proteins resulting in the formation of heterogeneous nuclear ribonucleoprotein (hnRNP) complexes. hnRNP complexes from HeLa cell nuclei contain greater than 20 major proteins in the molecular mass range of 34,000-120,000 D. Among these are the previously described A, B, and C groups of proteins (34,000-43,000 D) and several larger, and as yet uncharacterized, proteins. Here we describe the isolation and characterization of a novel hnRNP protein termed the L protein (64-68 kD by mobility in SDS-polyacrylamide gels). Although L is a bona fide component of hnRNP complexes, it also appears to be a different type of hnRNP protein from those previously characterized. A considerable amount of L is found outside hnRNP complexes, and monoclonal antibodies to the L protein also strongly stain unidentified discrete nonnucleolar structures, in addition to nucleoplasm, in HeLa cell nuclei. Interestingly, the same antibodies stain the majority of nonnucleolar nascent transcripts from the loops of lampbrush chromosomes in the newt, but the most intense staining is localized to the landmark giant loops. The L protein is the first protein of giant loops identified so far, and antibodies to it thus provide a useful tool with which to study these unique RNAs. In addition, isolation and sequencing of cDNA clones for the L protein from human cells predicts a glycine- and proline-rich protein of 60,187 D, which contains two 80 amino acid segments only distantly related to the RNP consensus sequence-type RNA-binding domain. The L protein, therefore, is a new type of hnRNP protein.
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PMID:A novel heterogeneous nuclear RNP protein with a unique distribution on nascent transcripts. 268 84

In scleroderma a profusion of circulating autoantibodies have now been defined. They include autoantibodies to Scl-70 or DNA topoisomerase 1, and to centromere/kinetochore proteins of 17.80 and 140 kilodaltons. In addition, there are several antigens which are resident primarily in the nucleolus and they are RNA polymerase 1, PM-Scl, fibrillarin and 7-2 ribonucleoprotein. Antibody to Scl-70 has been found primarily in the diffuse form of scleroderma and antibody to the centromere/kinetochore proteins in the CREST (calcinosis, Raynaud's phenomenon, esophageal dysmotility, sclerodactyly and telangiectasia) subset of scleroderma. Autoantibodies to the nucleolar antigens RNA polymerase 1, PM-Scl, fibrillarin and 7-2 RNP have been detected in at least 10% of all patients with scleroderma. For several reasons which are discussed, it appears that the autoantibody response in scleroderma is antigen-driven and further that the autoantigens involved in this disease are present at some time in the nucleolus. These observations may be providing clues to some of the basic mechanisms initiating autoimmunity.
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PMID:Autoantibodies in scleroderma. 269 Nov 61

The two variants of influenza A/Victoria/35/72 (H3N2) virus resistant simultaneously to remantadine, deitiforin, adapromine and amantadine were obtained while passaging the virus in presence of remantadine or deitiforin. Both variants differed from the parental strain in optimal pH for hemolysis, transcriptase activity and in amino acid sequence of M2 protein. Maximal hemolytic activity of the parental strain is registered at pH 5.2, for the variants cultured in the presence of remantadine or deitiforin at pH 5.5 and 5.8, respectively. In contrast to NH4OH, remantadine and deitiforin do not exert inhibition of virus-induced hemolysis. Transcriptase activity of resistant variants is about 50% higher as compared with parental strain (enzyme source--whole virus particles or RNP). The M2 protein of the remantadine variant has 2 amino acid substitutions: 31 (Ser----Asn) and 59 (Met----Leu); the deitiforin variant has 3 substitutions: 14 (Met----Leu), 30 (Ala----Val) and 59 (Met----Leu). The phenotypic resistance of the virus seems to be determined by the mutations in the hydrophobic protein region (30,31); the other substitutions (14,59) may modify conformational structure and functional activity of the viral proteins.
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PMID:[The change in functional activity and primary structure of the M2 protein in variants of the influenza virus resistant to remantadine and deitiforin: common and individual differences from the original strain]. 281

Acidic chloroform-methanol soluble proteins possessing hydrophobic properties and capable of inhibiting in vitro transcriptase activity of influenza virus RNP were detected in native and partially purified human leukocyte interferon (IFN) preparations. Purification of IFN resulted in the removal of at least a portion of such proteins; however, no proteins have been found in highly-purified IFN preparations.
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PMID:Studies of proteins soluble in acidic chloroform-methanol isolated from crude human leukocyte interferon preparations. 286 58

Anti-Sm antibodies recognize a group of small, nuclear RNA-protein complexes (snRNPs) containing U1, U2, U4, U5, and U6 snRNAs. Anti-RNP antibodies only react with U1 snRNA-containing complexes. The intranuclear distribution of snRNP particles was studied by double immunofluorescence staining of human fibroblasts. Mouse monoclonal anti-Sm antibodies and polyclonal patient sera reacting with different peptides in the snRNP complexes were used. The immunofluorescence patterns obtained with fluorescein isothiocyanate-conjugated anti-mouse Ig and tetramethylrhodamine isothiocyanate-conjugated anti-human Ig second antibodies were examined using computer analysis of digitized images. With this approach the similarity of different patterns could be visualized and estimated with mathematical methods. It was found that human anti-Sm serum as well as three different anti-RNP sera produced speckled patterns overlapping with the anti-Sm monoclonal pattern. Thus, Sm antigenic intranuclear domains also reacted with anti-RNP antibodies, suggesting a high degree of co-localization of the antigenic structures. A partial overlap was found between speckles detected by mouse anti-Sm antibodies and a human La-antiserum. No significant co-localization occurred between speckles detected by mouse anti-Sm antibodies and speckles detected by human antisera reacting with Scl-70 and centromeric antigens. As the U1 snRNP complex is believed to play a role in the splicing of RNA polymerase II transcripts, it appears that the speckles detected by Sm and RNP antibodies may be regions of hnRNA synthesis and mRNA processing. Although no function has been demonstrated for the U2, U4, U5, and U6 snRNPs, the co-localization with the U1 RNA complexes shown in this report indicate that they too participate in some aspect of mRNA processing. The results suggest that computer-assisted analysis of nuclear immunofluorescence patterns will be a useful tool in studies of the spatial and functional organization of the interphase nucleus.
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PMID:Intranuclear localization of snRNP antigens. 293

The response of isolated rat liver and murine erythroleukemia nuclei to phospholipid liposomes has been monitored with different techniques, by studying the endogenous RNA synthesis, the release of transcripts in the medium, the pattern of acid-extractable nuclear proteins and the ultra-structural morphology. Total transcription in rat liver and beta-globin mRNA synthesis in MEL nuclei are increased by PS and reduced by PC. These changes of RNA polymerase activity, and the transport of RNAs from nucleus as well as the nuclear protein changes, correlate with structural transitions which occur in both types of nuclei, consisting of euchromatization with loss of RNP particles in the case of PS and opposite effects with PC. The significance of these modifications in relationship to the possible involvement of phospholipids in the control of gene expression is discussed.
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PMID:Effect of phospholipids on transcription and ribonucleoprotein processing in isolated nuclei. 346 78

The ability of the fowl plague virus (FPV) M protein to form a complex with FPV RNP and to inhibit the RNP transcriptase activity in vitro depended on NaCl concentration and did not depend on the concentration of nonionic detergents. The results obtained indicate that the M protein-RNP links formed were of an electrostatic rather than a hydrophobic nature. As demonstrated using individual RNP components, vRNA and RNA-free protein structures, M protein formed complexes only with vRNA, and the complex formation was salt-dependent. Analysis of products formed in the in vitro system containing RNP of FPV in the presence of the M protein showed impairment in the transcription of all RNA segments. The degree of inhibition correlated with the size of a segment, transcription of high molecular weight RNA segments being inhibited significantly more than that of low molecular weight RNA segments.
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PMID:Interaction of M protein and RNP of fowl plague virus in vitro. 384 Sep 37

We have screened sera from patients with systemic lupus erythematosus for reactivity with RNA transcribed in vitro using HeLa whole cell extracts. Sera from 14 out of 114 patients precipitated an RNA transcribed by RNA polymerase III from a plasmid containing an Alu family sequence (i.e. the repetitive DNA sequence that is cut by the Alu restriction enzyme) located upstream from the human gamma G-globin gene. These Alu transcripts were not precipitated by anti-La, anti-Sm, anti-RNP or anti-Ro antibodies, suggesting that Alu RNA was precipitated by a previously undescribed lupus specificity. Analysis of [35S]methionine-labeled immunoprecipitates indicated that Alu RNA binds a protein of about 68 kDa. This protein may be Alu specific since three different Alu transcripts were precipitated by the anti-Alu sera whereas another RNA polymerase III transcript, adenovirus VA I RNA, was not precipitated by the same sera.
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PMID:Alu RNA-protein complexes formed in vitro react with a novel lupus autoantibody. 404 79

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