EC:2.7.7.49 - FACTA Search

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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sheep choroid plexus cells infected with visna virus produce intracytoplasmic viral ribonucleoprotein complexes with sedimentation values of 120S to 200S and buoyant densities of 1.29 to 1.32 g/cm3. These ribonucleoprotein complexes display an endogenous RNA-directed DNA polymerase activity and contain all of the species of RNA associated with polysomes. An analysis of the polypeptides present in the ribonucleoproteins allowed us to identify the mature internal virion core proteins and their precursor, Pr55gag, as well as the glycosylated envelope precursor gPr150env and small amounts of mature glycoprotein gp135. Ultracentrifugation-purified ribonucleoproteins could infect sheep choroid plexus cells and led to a normal lytic cycle with virus production. Our results suggest that visna virus can propagate by means of intracellular infectious particles.
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PMID:Intracellular ribonucleoprotein complexes of visna virus are infectious. 617 46

Immunoglobulin G (IgG) in six out of 30 patients with systemic lupus erythematosus (SLE) strongly inhibited the activity of RNA-dependent DNA polymerase (RDPase) of baboon endogenous virus, M7, while IgG obtained from scleroderma patients, rheumatoid arthritis patients and normal subjects was less reactive. Experiments with anti-human IgG and with IgG F (ab')2-bound immunoaffinity columns indicated that the inhibition of RDPase was antibody-mediated. The RDPase inhibiting activity of SLE IgG was considered not to be due to cross-reactions of anti-nuclear antibodies including anti-DNA, anti-ribonucleoprotein, anti-Sm and anti-SS.B antibodies. SLE IgG preferably inhibited the RDPase activity of baboon endogenous virus and a feline endogenous virus, RD114. These findings support the hypothesis that retrovirus(es) might be involved in SLE.
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PMID:Evidence in patients with systemic lupus erythematosus of the presence of antibodies against RNA-dependent DNA polymerase of baboon endogenous virus. 619 21

A virus-specific ribonucleoprotein complex is present in the cytoplasm of reticuloendotheliosis virus-transformed chicken bone marrow cells. This ribonucleoprotein complex contains viral reverse transcriptase activity and may represent a precursor to the budding virion. The major viral polypeptide associated with the ribonucleoprotein complex was a polypeptide with a molecular weight of 63,000. This protein exhibited a precursor-product relationship with the major reticuloendotheliosis virus structural core protein p29. Core polypeptides were not associated with the intracellular ribonucleoprotein complex. Thus, p29 was incorporated into the virion in the form of its precursor Pr63. The cleavage of Pr63 in the ribonucleoprotein complex was accomplished either during the budding process of shortly after the release of particles from the cell.
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PMID:Assembly of avian reticuloendotheliosis virus: association of the core precursor polypeptide with the intracellular ribonucleoprotein complex. 624 76

Macronuclear telomeres in Oxytricha exist as DNA-protein complexes in which the termini of the G-rich strands are bound by a 97-kDa telomere protein. During telomeric DNA replication, the replication machinery must have access to the G-rich strand. However, given the stability of telomere protein binding, it has been unclear how this is accomplished. In this study we investigated the ability of several different DNA polymerases to access telomeric DNA in Oxytricha telomere protein-DNA complexes. Although DNA bound by the telomere protein is not degraded by micrococcal nuclease or labeled by terminal deoxynucleotidyltransferase, this DNA serves as an efficient primer for the addition of telomeric repeats by telomerase, a specialized RNA-dependent DNA polymerase (ribonucleoprotein reverse transcriptase), EC 2.7.7.49. Moreover, in the presence of a suitable complementary C-rich DNA template, AMV reverse transcriptase and the E. coli Klenow fragment will also elongate DNA bound by the telomere protein. These findings indicate that the 3' terminus and the Watson-Crick base pairing positions are exposed in the protein complex. We propose that the telomere protein can serve a dual role at the telomere by protecting the DNA phosphate backbone from degradation while simultaneously exposing the DNA bases for replication.
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PMID:DNA bound by the Oxytricha telomere protein is accessible to telomerase and other DNA polymerases. 750 21

The mobility (homing) of the yeast mitochondrial DNA group II intron al2 occurs via target DNA-primed reverse transcription at a double-strand break in the recipient DNA. Here, we show that the site-specific DNA endonuclease that makes the double-strand break is a ribonucleoprotein complex containing the al2-encoded reverse transcriptase protein and excised al2 RNA. Remarkably, the al2 RNA catalyzes cleavage of the sense strand of the recipient DNA, while the al2 protein appears to cleave the antisense strand. The RNA-catalyzed sense strand cleavage occurs via a partial reverse splicing reaction in which the protein component stabilizes the active intron structure and appears to confer preference for DNA substrates. Our results demonstrate a biologically relevant ribozyme reaction with a substrate other than RNA.
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PMID:A group II intron RNA is a catalytic component of a DNA endonuclease involved in intron mobility. 758 55

Group II introns al1 and al2 of the yeast mtDNA cox1 gene encode reverse transcriptase-like proteins that function in RNA splicing and may play a role in intron mobility and excision. We find that ribonucleoprotein particles from yeast mitochondria contain a reverse transcriptase activity that is likely encoded by al1 and al2 and is highly specific for the introns and their flanking exons. Using a mutant strain with elevated activity, we show that the reverse transcriptase uses either excised intron RNA or cox1 pre-mRNA as template and initiates cDNA synthesis near the 3' end of al2 and immediately downstream in E3. Our results suggest that introns al1 and al2 are retroelements, which encode reverse transcriptases that have adapted to function in RNA splicing.
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PMID:Reverse transcriptase activity associated with maturase-encoding group II introns in yeast mitochondria. 768 27

Nuclease footprinting has been used to probe features of binary complexes of type 1 human immunodeficiency virus reverse transcriptase (HIV-1 RT) with both natural and synthetic preparations of its cognate replication primer, tRNA(Lys-3). In addition to heterodimeric RT (p66/p51), ribonucleoprotein complexes containing either the p66 or p51 subunit were analyzed. Footprinting experiments employed both structure- and sequence-specific nucleases. Our results indicate a similar mode of interaction for the three RT preparations tested, suggesting contact with each loop of the tRNA primer (D, anticodon, and T psi C), as well as minor perturbation of the anticodon stem. Although there is little evidence for extensive disruption of the 3'-acceptor stem. RNase A footprinting data with natural and synthetic tRNA suggests that potential base pairing between the T psi C and D loops is disrupted in the presence of RT.
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PMID:Nuclease footprinting of human immunodeficiency virus reverse transcriptase/tRNA(Lys-3) complexes. 768 66

The Mauriceville mitochondrial plasmid of Neurospora encodes a reverse transcriptase that synthesizes a full-length cDNA copy of the major plasmid transcript beginning directly opposite the 3' end of the template RNA (Kuiper, M. T. R., and Lambowitz, A. M. (1988) Cell 55, 693-704). Here, we show that the Mauriceville plasmid reverse transcriptase has no detectable RNase H activity and that cDNAs synthesized either by the column-purified reverse transcriptase or by the endogenous reverse transcriptase in purified ribonucleoprotein particles remain in a full-length duplex with the template RNA. The column-purified Mauriceville plasmid reverse transcriptase initiates cDNA synthesis by using short DNA primers, which remain attached to the 5' end of the (-) strand DNA (Wang, H., Kennell, J. C., Kuiper, M. T. R., Sabourin, J. R., Saldanha, R., and Lambowitz, A. M. (1992) Mol. Cell. Biol. 12, 5131-5144). We find that these primer DNAs can be precisely removed by S1 nuclease digestion of the initial cDNA.RNA duplex, suggesting a mechanism whereby this structure may contribute to primer removal in vivo. Finally, we show that Neurospora mitochondria contain an endogenous RNase H activity, which is present in mitochondrial ribonucleoprotein particle preparations prior to their purification. This mitochondrial RNase H can degrade the endogenous plasmid transcript in ribonucleoprotein particles in vitro and could play a similar role in vivo. The finding that the Mauriceville plasmid reverse transcriptase, which is believed to be a primitive enzyme, has no detectable RNase H activity is consistent with the hypothesis that retroviral reverse transcriptases acquired their RNase H domains from a gene encoding a cellular RNase H.
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PMID:Reverse transcription of the Mauriceville plasmid of Neurospora. Lack of ribonuclease H activity associated with the reverse transcriptase and possible use of mitochondrial ribonuclease H. 768 63

Telomerase, an essential ribonucleoprotein reverse transcriptase, adds telomeric DNA to the ends of eukaryotic chromosomes. We examined the conformational properties of the naked RNA moiety of telomerase from two related ciliates, Tetrahymena thermophila and Glaucoma chattoni. As well as finding evidence for features proposed previously on the basis of phylogenetic comparisons, novel conserved structural properties were revealed. Specifically, although the region around helix III was previously proposed to form a pseudoknot, our results indicate that in the naked RNA this region maintains a level of 'plasticity', probably in an equilibrium favoring one of two helices. In addition, these studies reveal that the templating domain is not entirely single-stranded as previously proposed, but is ordered due to constraints imposed by other parts of the RNA. Finally, our results suggest that the GA bulge in helix IV may introduce a structurally conserved kink. We now propose a 'two-domain' structure for the telomerase RNA based on function: one conformationally flexible domain, which includes the template and the region around helix III, involved with enzymatic function, and a second largely helical domain, including helices I and IV and the proposed kink, which may serve as a scaffold for protein binding.
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PMID:Architecture of telomerase RNA. 798 68

The ribonucleoprotein enzyme telomerase is a specialized type of cellular reverse transcriptase which synthesizes one strand of telomeric DNA, using as the template a sequence in the RNA moiety of telomerase. We analyzed the effects of various nucleoside analogs, known to be chain-terminating inhibitors of retroviral reverse transcriptases, on Tetrahymena thermophila telomerase activity in vitro. We also analyzed the effects of such analogs on telomere length and maintenance in vivo, and on vegetative growth and mating of Tetrahymena cells. Arabinofuranyl-guanosine triphosphate (Ara-GTP) and ddGTP both efficiently inhibited telomerase activity in vitro, while azidothymidine triphosphate (AZT-TP), dideoxyinosine triphosphate (ddITP) or ddTTP were less efficient inhibitors. All of these nucleoside triphosphate analogs, however, produced analog-specific alterations of the normal banding patterns seen upon gel electrophoresis of the synthesis products of telomerase, suggesting that their chain terminating and/or competitive actions differ at different positions along the RNA template. The analogs AZT, 3'-deoxy-2',3'-didehydrothymidine (d4T) and Ara-G in nucleoside form caused consistent and rapid telomere shortening in vegetatively growing Tetrahymena. In contrast, ddG or ddI had no effect on telomere length or cell growth rates. AZT caused growth rates and viability to decrease in a fraction of cells, while Ara-G had no such effects even after several weeks in culture. Neither AZT, Ara-G, acycloguanosine (Acyclo-G), ddG nor ddI had any detectable effect on cell mating, as assayed by quantitation of the efficiency of formation of progeny from mated cells. However, AZT decreased the efficiency of programmed de novo telomere addition during macronuclear development in mating cells.
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PMID:The effects of nucleoside analogs on telomerase and telomeres in Tetrahymena. 815 19

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