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)

The transcription and replication of influenza RNA can be studied in vitro by the reconstitution of functional ribonucleoprotein (RNP) complex from viral core proteins including the RNA polymerase (complex of three P protein subunits) and nucleoprotein (NP), and model templates. Here, two different core protein preparations, one based on CsCl centrifugation (CS enzyme) and the other on micrococcal nuclease treatment of viral cores (MN enzyme), were compared side-by-side. Short model RNA templates and their 3'-half molecules of both viral RNA (vRNA) and complementary RNA (cRNA) senses were reconstituted with the core protein preparations in parallel, and RNA polymerase activity was tested either in the presence or absence of ApG or globin mRNA as primers. Both enzyme preparations were active in the syntheses of short vRNA and cRNA transcripts using ApG as a primer, although the synthesis of cRNA was 2-10-fold higher (depending on the template used) than the synthesis of vRNA. The MN enzyme, however, was more active per weight of total protein than the CS enzyme, probably because of its higher content of RNA polymerase. Both enzymes failed to show primer-independent synthesis of vRNA. The differences observed in the synthesis of short transcripts using globin mRNA as a primer are discussed.
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PMID:Comparison of two reconstituted systems for in vitro transcription and replication of influenza virus. 161 40

The term vitamin D includes various chemical species. Vitamin D3 a true endogenous or alimentary prohormone is converted into its main metabolite, calcitriol, by successive hydroxylations in the liver in position 25 and in the kidney in position 1, the production of which is controlled by several factors including parathyroid hormone, blood calcium and phosphorus or insulin as well as by the metabolites of the hormone itself. It controls the synthesis of numerous peptides by acting on gene expression. Indeed, several structural proteins are involved including procollagen alpha 1l, core protein of proteoglycans, diverse regulatory peptides such as protooncogene c-myc and growth factors, "Tumor Necrosis Factor or TNF" and "Nerve Growth Factor or NGF" or hormones such as parathyroid hormone, and finally constitutive proteins of the mineralized tissues such as osteonectin, osteocalcin, osteopontin and calbindins. Therefore, it modulates very different cellular processes. It acts via a nuclear receptor the structure and function of which have been investigated by genetic engineering (cloning of genes encoding for the receptor and hormono-dependent peptides, transfection assays, directed mutagenesis). Actual studies investigate its role in the formation of the complex for transcription initiation near ADN sites, the "Vitamin D Responsive Element or VDRE", located upstream vitamin D-responsive genes and approximately RNA polymerase II. The receptor, which is present in many cell types at various concentrations, would determine spatial and temporal patterns of calcitriol action during development in conjunction with chromatin factors.
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PMID:[Vitamin D: biosynthesis, metabolism and mechanism of action at the cellular level]. 164 84

A culture of rhesus monkey peripheral blood lymphocytes was divided into two parts; one was kept as an uninfected control, and the other was infected with a strain of simian immunodeficiency virus (SIVmac251) originally isolated from a rhesus monkey that died of a malignant lymphoma associated with acquired immune deficiency syndrome. Both cultures were sampled at successive intervals from 1 to 40 days postinfection. Each sample was subjected to in situ hybridization for detection of viral mRNA, immunocytochemical detection of viral core protein (p27), reverse transcriptase assay, electron microscopy, and immunophenotypic characterization of infected cells. These techniques were used to define viral growth kinetics of this novel lentivirus in peripheral blood lymphocytes. The first evidence of SIVmac251 replication was obtained by an in situ hybridization signal for viral mRNA at 2 days postinoculation. This was followed by detection of viral p27 core protein by immunocytochemistry on day 4. Reverse transcriptase activity above control values was not detected until day 8. Budding particles were not found in the infected cultures until 14 days postinfection. Results of in situ hybridization, immunocytochemistry, and reverse transcriptase assay indicated that two bursts of viral replication occurred during the course of this study. The first, at 3 weeks postinfection, was due to infection and subsequent depletion of CD4+ lymphocytes, while the second, 3 weeks later, resulted from a cycle of replication in CD8+ lymphocytes and the remaining CD4+ cells, culminating in the death of all cells on day 39 postinoculation.
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PMID:Study of long-term cultures of simian immunodeficiency virus (SIVmac 251)-infected peripheral blood lymphocytes. 169 33

The S2 gene nucleotide sequences of prototype strains of the three reovirus serotypes were determined to gain insight into the structure and function of the S2 translation product, virion core protein sigma 2. The S2 sequences of the type 1 Lang, type 2 Jones, and type 3 Dearing strains are 1,331 nucleotides in length and contain a single large open reading frame that could encode a protein of 418 amino acids, corresponding to sigma 2. The deduced sigma 2 amino acid sequences of these strains are very conserved, being identical at 94% of the sequence positions. Predictions of sigma 2 secondary structure and hydrophobicity suggest that the protein has a two-domain structure. A larger domain is suggested to be formed from the amino-terminal three-fourths of sigma 2 sequence, which is separated from a smaller carboxy-terminal domain by a turn-rich hinge region. The carboxy-terminal domain includes sequences that are more hydrophilic than those in the rest of the protein and contains sequences which are predicted to form an alpha-helix. A region of striking similarity was found between amino acids 354 and 374 of sigma 2 and amino acids 1008 and 1031 of the beta subunit of the Escherichia coli DNA-dependent RNA polymerase. We suggest that the regions with similar sequence in sigma 2 and the beta subunit form amphipathic alpha-helices which may play a related role in the function of each protein. We have also performed experiments to further characterize the double-stranded RNA-binding activity of sigma 2 and found that the capacity to bind double-stranded RNA is a property of the sigma 2 protein of prototype strains and of the S2 mutant tsC447.
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PMID:The S2 gene nucleotide sequences of prototype strains of the three reovirus serotypes: characterization of reovirus core protein sigma 2. 192 Jun 14

The nucleotide sequence of segment 1 of the double stranded RNA genome of bluetongue virus serotype 10 (BTV-10), encoding the largest viral core protein, VP1, has been determined. Linear sequence analysis of the predicted amino acid sequence of the 149-K Da protein, a putative component of the viral RNA-directed RNA polymerase, revealed extensive homology with the vaccinia virus 147K Da DNA-directed RNA polymerase subunit. Similar homologies were detected between the VP1 polypeptide and the beta chain subunit of Escherichia coli and common tobacco chloroplast RNA polymerases, yeast RNA polymerase II and III and fruit fly polymerase II.
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PMID:Evidence for genetic relationship between RNA and DNA viruses from the sequence homology of a putative polymerase gene of bluetongue virus with that of vaccinia virus: conservation of RNA polymerase genes from diverse species. 285 May 42

Pyridoxal 5'-phosphate (PLP), a reversible inhibitor of in vitro transcription by fowl plaque virus, has been used to identify the transcriptase. Kinetic analyses showed that PLP competitively inhibits the addition of each nucleoside triphosphate in ApG-primed reactions, suggesting that both initiation and elongation are affected. The irreversible inhibition by PLP following reduction with borohydride was prevented by preincubation with the first substrate: GTP in unprimed reactions or CTP in the presence of ApG. On reaction of FPV proteins with PLP and [3H]borohydride the core protein PB1 was preferentially labeled and the labeling was selectively blocked by GTP or ApG + CTP. These data suggest that PB1 has the nucleotide-binding site of the transcriptase, is responsible for both initiation and elongation, and is apparently associated with the 3' ends of template RNAs in virions.
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PMID:Identification of the influenza virus transcriptase by affinity-labeling with pyridoxal 5'-phosphate. 619 1

The extent of self-association of Escherichia coli DNA-dependent RNA polymerase core enzyme has been investigated by velocity sedimentation as a function of both NaCl and protein concentrations. The core enzyme, existing as essentially monomeric species having a sedimentation coefficient of 13.1 S at NaCl concentrations greater than 0.2 M, undergoes reversible self-association at lower salt concentrations. Estimates for the stoichiometry of association and equilibrium constants of reaction were determined from the effect of protein concentration on the weight-average sedimentation coefficient measured at different NaCl concentrations. Data analysis by a nonlinear curve-fitting procedure indicated that protein self-association is best described by a sequential model characterized by weaker association constants for each additional step of oligomerization, and any model that involves cooperative formation of oligomeric species can be excluded. These findings are at variance with the conclusion of a previous study [Shaner, S. L., Platt, D. M., Wensley, C. G., Yu, H., Burgess, R. R., & Record, M. T. (1982) Biochemistry 26, 5539-5551] which suggested that core RNA polymerase exists in equilibrium between monomeric and tetrameric forms of the enzyme and excluded the existence of intermediate species. Simulation of sedimentation velocity boundary and gradient profiles are used to assess the validity of both models of association of core protein. It was clear that had the core enzyme undergone a cooperative monomer<-->tetramer mode of association, then bimodality would have been observed in the derivative tracings of the sedimentation boundary under these experimental conditions. Nevertheless, no such observation was reported by Shaner et al. and this study. The sequential model favored by the results of this study is consistent with the proposed model resulted from a small-angle X-ray study [Heumann, H, Meisenberger O., & Pilz, I. (1982) FEBS Lett. 138, 273-276]. Further analysis of the data by the Wyman linked-function relationship [Wyman, J. (1964) Adv. Protein Chem. 19, 223-286] implies that core enzyme monomer loses approximately three counterions per contact upon association to higher oligomeric species.
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PMID:Self-association of Escherichia coli DNA-dependent RNA polymerase core enzyme. 761 15

Avian reovirus S1133 was shown to contain all the enzymatic activities required for the synthesis of mature viral transcripts, including a dsRNA-dependent RNA polymerase, a nucleoside triphosphate phosphohydrolase, an mRNA guanylyltransferase, and two mRNA methyltransferases. The virus used these enzymes both in vitro and in vivo to catalyze the synthesis of viral mRNAs containing a type-1 cap at their 5' ends. Incubation of reovirions with GTP led to the formation of an intermediate structure consisting of GMP bound to the viral core protein lambda 3 through a phosphoamide linkage. The reaction was specific for GTP and required the presence of both Mg2+ and inorganic pyrophosphatase. The GMP moiety can be transferred from the lambda 3-GMP complex to acceptors such as GDP and GTP, yielding GpppG and GppppG, respectively. Our results demonstrate that lambda 3 is the avian reovirus guanylyltransferase.
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PMID:Endogenous enzymatic activities of the avian reovirus S1133: identification of the viral capping enzyme. 785 76

The reovirus core is a multienzyme complex that contains five different structural proteins and 10 segments of double-stranded RNA. The core is responsible for transcribing mRNA from the enclosed double-stranded RNA. The reovirus transcriptase has an unusual temperature profile, with optimum transcription occurring at approximately 50 degrees C and little activity occurring below 30 or above 60 degrees C. Purified reovirus serotype 1 Lang (T1L) cores transcribed most efficiently at 48 degrees C. The transcriptase temperature optimum of purified reovirus serotype 3 Dearing (T3D) cores was 52 degrees C. In addition, T1L cores produced more mRNA per particle than did T3D cores at their respective temperature optima. Core particles were purified from T1L x T3D reassortants and were used to map these differences. The M1 gene, which encodes minor core protein mu 2, was uniquely associated with the difference in temperature optimum of transcription (P = 0.0003). The L1 gene, which encodes minor core protein lambda 3 (previously implicated as the RNA polymerase), and the M1 gene were associated with the difference in absolute amounts of transcript produced (P = 0.01 and P = 0.0002, respectively). These data suggest that minor core protein mu 2 also plays a role in reovirus transcription.
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PMID:The M1 gene is associated with differences in the temperature optimum of the transcriptase activity in reovirus core particles. 855 84

A newly identified temperature-sensitive mutant whose defect was mapped to the reovirus M1 gene (minor core protein mu2) was studied to better understand the functions of this virion protein. Sequence determination of the Ml gene of this mutant (tsH11.2) revealed a predicted methionine-to-threonine alteration at amino acid 399 and a change from proline to histidine at amino acid 414. The mutant made normal amounts of single-stranded RNA, both in in vitro transcriptase assays and in infected cells, and normal amounts of progeny viral protein at early times in a restrictive infection. However, tsH11.2 produced neither detectable progeny protein nor double-stranded RNA at late times in a restrictive infection. These studies indicate that mu2 plays a role in the conversion of reovirus mRNA to progeny double-stranded RNA.
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PMID:Identification and characterization of a double-stranded RNA- reovirus temperature-sensitive mutant defective in minor core protein mu2. 867 44

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