EC:3.1.26.4 - FACTA Search

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Query: EC:3.1.26.4 (RNase H)
2,751 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The DNA polymerase and RNase H activities of HIV reverse transcriptase are both essential for HIV replication. Although the two activities are both catalyzed by a single polypeptide, they are physically separate; i.e., the DNA polymerase resides in the N-terminal domain whereas the RNase H is localized in the C-terminal domain. The present study was undertaken to characterize the enzymatic properties of these two activities and to determine whether the two catalytic sites are also functionally distinct. We have observed that EGTA specifically stimulates, whereas CaCl2 selectively inhibits, the RNA-dependent DNA polymerase activity but that neither compound has any effect on the RNase H activity of a recombinant HIV reverse transcriptase. The stimulation of the DNA polymerase activity by EGTA is dependent on the Mg2+ concentration; the greatest stimulation is observed at low Mg2+ concentrations. Similarly, the inhibition of DNA polymerase activity by Ca2+ is influenced by Mg2+ concentration. Ca2+ inhibition can be reversed by increasing Mg2+ concentrations, suggesting the possibility that CaCl2 inhibits the reverse transcriptase activity by competing for a metal-binding site on the enzyme. The pyrophosphate analogue phosphonoformate selectively inhibits the polymerase activity but not the RNase H activity of HIV reverse transcriptase. In contrast, the RNase H activity can be selectively inhibited by deoxyadenosine 5'-monophosphate, whereas the DNA polymerase activity is not inhibited. These results suggest that the DNA polymerase and RNase activities are not only physically separate but that they are also functionally distinct.
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PMID:Functional characterization of RNA-dependent DNA polymerase and RNase H activities of a recombinant HIV reverse transcriptase. 170 16

The major ribonuclease H from K562 human erythroleukemia cells has been purified more than 4,000-fold. This RNase H, now termed RNase H1, is an endoribonuclease whose products contain 5'-phosphoryl and 3'-hydroxyl termini. The enzyme has a native molecular weight of 89,000 based on its sedimentation and diffusion coefficients. Human RNase H1 has an absolute requirement for a divalent cation. Maximal activity is obtained with either 10 mM Mg2+, 5 mM Co2+, or 0.5 mM Mn2+. The pH optimum is between 8.0 and 8.5 in the presence of 10 mM Mg2+. The isoelectric point is 6.4. RNase H1 lacks double-stranded and single-stranded RNase and DNase activities, and it will not hydrolyze the DNA moiety of an RNA.DNA heteroduplex. Unlike the Escherichia coli enzyme, which requires a heteroduplex that contains at least four consecutive ribonucleotides for activity, human RNase H1 can hydrolyze a DNA.RNA.DNA/DNA heteroduplex that contains a single ribonucleotide. Cleavage occurs at the 5' phosphodiester of this residue. This substrate specificity suggests that human RNase H1 could play a role in ribonucleotide excision from genomic DNA during replication.
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PMID:Ribonuclease H from K562 human erythroleukemia cells. Purification, characterization, and substrate specificity. 170 18

The effects of AZTMP and other nucleoside 5'-monophosphates on the RNA-dependent DNA polymerase and RNase H activities of a recombinant HIV reverse transcriptase have been investigated. Both activities are sensitive to inhibition by millimolar concentrations of AZTMP with MgCl2 as divalent cation activator. Substitution of Mn2+ for Mg2+ markedly potentiates the inhibition of RNase H activity by AZTMP, reducing the IC50 from 5 to 0.05 mM. In contrast, Mn2+ does not alter the sensitivity of the RNA-dependent DNA polymerase activity to inhibition by AZTMP. The inhibition of RNase H activity by AZTMP can be reversed by increasing concentrations of the substrate poly(A)/poly(dT), suggesting that AZTMP may compete with the substrate for binding at the active site of RNase H. Other nucleoside 5'-monophosphates do not inhibit RNase H in the presence of Mg2+. However, in the presence of Mn2+, deoxy- and dideoxynucleoside 5'-monophosphates that are complementary to the DNA strand of the heteroduplex substrate are somewhat inhibitory. The RNA-dependent DNA polymerase activity is a slightly inhibited by AZTMP and ddTMP in either Mg2+ or Mn2+, and substitution of Mn2+ for Mg2+ results in inhibition by ddAMP as well. Naturally occurring ribo- or deoxyribonucleoside 5'-monophosphates are not inhibitory at concentrations up to 5 mM. Since AZTTP inhibits the RNA-dependent DNA polymerase activity of HIV reverse transcriptase at nanomolar concentrations, it is unlikely that the inhibition of this activity by AZTMP plays a significant role in the antiviral effect of AZT. However, the inhibition of the RNase H activity by AZTMP, which can reach millimolar concentrations in vivo, may account for part of the sensitivity of the virus to AZT.
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PMID:Inhibition of the RNase H activity of HIV reverse transcriptase by azidothymidylate. 170 9

The mobile element jockey is similar in structural organization and coding potential to the LINEs of various organisms. It is transcribed at different stages of Drosophila ontogenesis. The Drosophila LINE family includes active transposable elements. Current models for the mechanism of transposition involve reverse transcription of an RNA intermediate and utilization of element-encoded proteins. As demonstrated here, a 2.23 kb DNA fragment from the region of jockey encoding the putative reverse transcriptase was stably introduced into an expression system under inducible control of the Escherichia coli lac regulatory elements. We describe the expression of the 92 kDa protein and identify this polypeptide alone as the authentic jockey reverse transcriptase based on some of its physical and enzymic properties. The jockey polymerase demonstrates RNA and DNA-directed DNA polymerase activities but lacks detectable RNase H, has a temperature optimum at 26 degrees C, requires Mg2+ or Mn2+ as a cofactor and is inactivated by sulphydryl reagent. The enzyme prefers poly(rC) and poly(rA) as template and 'activated' DNA is not effective.
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PMID:Authentic reverse transcriptase is coded by jockey, a mobile Drosophila element related to mammalian LINEs. 171 78

Expression of a region of the Moloney murine leukemia virus (M-MuLV) pol gene in Escherichia coli resulted in the synthesis of reverse transcriptase activity which could be detected in crude extracts. Construction of deletions at the 3' terminus of this gene resulted in a 4-fold increase in the level of the reverse transcriptase activity in the soluble fraction of crude lysates and yielded the high level production of a stable protein species of Mr = 71,000. Purification of this protein by column chromatography on DEAE-cellulose, phosphocellulose, polyribocytidylic acid-agarose, and hydroxylapatite indicated that it was a multifunctional enzyme containing RNase H and reverse transcriptase activity. The Mr = 71,000 species had a sedimentation coefficient of 4.65 S by glycerol gradient centrifugation, indicating that the enzyme was a monomer. Using poly(A)+ mRNAs primed with oligo(dT), the enzyme synthesized double-stranded DNA copies between 1.3 and 9.9 kilobases in length. Synthesis of long cDNA required 8 mM Mg2+, 4 mM Mn2+, 2 mM dNTPs, and saturating levels of enzyme. Actinomycin D efficiently limited the enzyme to the first strand synthesis. Additional characteristics of the fusion protein are described.
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PMID:Purification and characterization of murine retroviral reverse transcriptase expressed in Escherichia coli. 241 Apr 13

We have analyzed the kinetics of DNA synthesis catalyzed by reverse transcriptase from human immunodeficiency virus 1 (HIV-1). Reverse transcriptase, overproduced in Escherichia coli and purified to homogeneity, has polymerase and RNase H activity. Reverse transcriptase forms a stable complex with poly(rA).oligo(dT) primer-templates in the absence of Mg2+ and dTTP with an equilibrium dissociation constant of 3 nM. Synthesis from these preformed complexes can be initiated, and restricted to a single processive cycle, by the simultaneous addition of Mg2+, dTTP, and excess competitor RNA. Preformed complexes decay with a maximal half-life of 2-3 min. Synthesis on poly(rA) templates is processive with an incorporation rate of 10-15 nucleotides/s at 37 degrees C. Processivity varies widely with the template used, increasing from a few to greater than 300 nucleotides in the order: poly(dA) less than double-stranded DNA less than single-stranded DNA less than single-stranded RNA less than poly(rA). On double-stranded DNA reverse transcriptase catalyzes limited strand-displacement synthesis of up to 50 nucleotides. On RNA-DNA hybrids significant DNA synthesis is observed only after degradation of the RNA strand by the RNase H activity of reverse transcriptase. Intermolecular strand switching occurs with poly(rA) templates. At low ionic strength reverse transcriptase can use multiple templates with a single primer, leading to products of greater than template length. Reverse transcriptase and primer do not have to dissociate during the exchange of template strands, thus allowing processive DNA synthesis across template borders.
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PMID:Human immunodeficiency virus 1 reverse transcriptase. Template binding, processivity, strand displacement synthesis, and template switching. 246 38

Biochemical characteristics of the RNase H activity associated with immunoaffinity purified human immunodeficiency virus (HIV) reverse transcriptase (RT) were examined. Glycerol gradient centrifugation of HIV RT resulted in a single peak of RNase H, associated with RT activity, with an apparent molecular weight of 110,000. HIV RNase H exhibited a marked substrate preference for poly(dC).[3H]poly(rG) compared to poly(dT).[3H]poly(rA). It did not hydrolyze single-stranded RNA or the DNA component of DNA.RNA hybrids. Products of the HIV RT-associated RNase H reaction consisted primarily of monomers, dimers, and trimers with 3' OH groups. This reaction was Mg2+ dependent, with greater than 90% of maximum activity at MgCl2 concentrations between 4 and 12 mM. The optimum KCl concentration for HIV RT catalyzed polymerization with a poly(rA).(dT)10 template. The optimum pH for HIV RNase H activity was between 8.0 and 8.5, in contrast to an optimum pH of 7.5 to 8.0 for HIV RT activity. The association of RNase H activity with the p66 component of HIV RT was demonstrated by activity gel analysis. These results indicate that HIV RT has an integral RNase H activity; however, some of its properties are different from those of RNase H associated with other retroviral RT's, and optimal assay conditions are different than those for HIV RT catalyzed DNA polymerization.
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PMID:Human immunodeficiency virus reverse transcriptase-associated RNase H activity. 246 65

Ribonuclease H IIb, which seems to play a physiological role during transcription, was purified from calf thymus tissue. A polyclonal antibody, raised against the most purified ribonuclease H IIb fraction, recognizes in crude extracts almost exclusively a 52-kDa protein band. By immunoaffinity chromatography and immunoprecipitation experiments, we are able to deplete enzyme extracts from the crossreacting 52-kDa protein band and from ribonuclease H IIb activity. Enzyme activity is eluted from the immunoaffinity matrix in association with a 52-kDa protein under denaturing conditions. Immunoaffinity chromatography enables us also to calculate a purification factor of around 20,000 from the crude extract. The native molecular mass for the enzyme of around 45 kDa, as determined by gel filtration, suggests that calf thymus ribonuclease H IIb is most probably monomeric. The enzyme possesses an isoelectric point of 7.0. It requires Mg2+ ions for activity, is inhibited by N-ethylmaleimide, and exhibits a pH optimum of 9.0-9.5. The enzyme releases oligoribonucleotides with 3'-OH and 5'-phosphate ends, probably in an exonucleolytical manner. The third largest subunit of yeast RNA polymerase A (I) displays ribonuclease H activity [Huet et al. (1976) Nature 261, 431-433]. We discuss our findings in the light of a possible association of ribonuclease H IIb and RNA polymerase A (I) in higher eukaryotes.
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PMID:Serological analysis and characterization of calf thymus ribonuclease H IIb. 255 85

A ribonuclease H which degrades RNA specifically in RNA-DNA hybrids and, moreover, stimulates its homologous DNA-polymerase-primase complex was purified from calf thymus. The enzyme consists of a single polypeptide of molecular mass 78 kDa. It requires divalent cations for activity, and prefers Mg2+ over Mn2+. Ribonuclease H is optimally active at neutral pH and in 75 mM potassium acetate and is strongly sensitive to N-ethylmaleimide. [3H]Poly(rA).poly(dT), [3H]poly(rC).poly(dI), and [3H]RNA.M13-DNA are degraded to 3-9-mer oligoribonucleotides with similar kinetics, whereas double- or single-stranded DNA, and double- and single-stranded RNA remain unaffected. The enzyme stimulates in vitro DNA synthesis by the immunoaffinity-purified calf-thymus DNA-polymerase-alpha-primase complex threefold. When ribonuclease H is present in a three-fold molar excess to the polymerase-primase complex, twice as much primer is formed as in the absence of ribonuclease H. Ribonuclease H also stimulates the elongation rate of DNA polymerase alpha by a factor of 2-3, independent of whether primase-primed DNA templates or templates primed with oligonucleotides are used. Our results suggest that this form of ribonuclease H is a likely candidate for a genuine primer-removing enzyme in mammalian cells.
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PMID:A distinct form of ribonuclease H from calf thymus stimulates its homologous DNA-polymerase-alpha-primase complex. 255 72

Three overlapping RNA fragments containing the pseudoknot, as found in the tRNA-like structure of turnip yellow mosaic virus (TYMV) RNA, have been isolated and purified. Site-directed cleavage of TYMV RNA by RNase H, followed by ammonium sulphate precipitation and ion-exchange HPLC, yielded a pure preparation of a 3'-terminal, 112-nucleotide TYMV RNA fragment. Transcription of TYMV cDNA by T7 RNA polymerase, resulted in the isolation of an 88-nucleotide fragment. Finally, a 44-nucleotide fragment containing the TYMV RNA pseudoknot and strongly resembling the aminoacyl acceptor arm of the viral RNA was also synthesised using T7 RNA polymerase. The three fragments were isolated in milligram amounts and used for biochemical structure mapping, ultraviolet melting studies and NMR spectroscopy. Chemical modification with diethyl pyrocarbonate and sodium bisulphite and enzymatic digestion with RNase T1 confirmed the presence of the pseudoknot in the 44-nucleotide fragment. Also the analogue of the T-stem and T-loop of the tRNA-like structure of TYMV RNA was found. The results of modification at various temperatures in Mg2+-containing buffers were in general agreement with optical melting studies. Ultraviolet melting analysis of the longer fragments revealed their greater complexity and the results appear similar to those obtained for some tRNA species. To obtain direct biophysical evidence for base-pairing and stacking interactions in the pseudoknot, NMR studies were initiated. The first proton-NMR spectra ever obtained for plant viral RNA fragments are presented. NMR spectra were recorded at various buffer conditions and at various temperatures. The spectra for the 112-nucleotide and 88-nucleotide fragment are too complicated to be solved at present. In the case of the 44-nucleotide fragment, however, the imino proton resonances are well separated and this system turns out to be most promising for structural studies.
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PMID:Biochemical and biophysical analysis of pseudoknot-containing RNA fragments. Melting studies and NMR spectroscopy. 277 53

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