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)

Two constituent protein domains of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase were expressed separately and purified to homogeneity. The N-terminal domain (p51) behaves as a monomeric protein exhibiting salt-sensitive DNA polymerase activity. The C-terminal domain (p15) on its own has no detectable RNase H activity. However, the combination of both isolated p51 and p15 in vitro leads to reconstitution of RNase H activity on a defined substrate. These results demonstrate that domains of HIV-1 reverse transcriptase are functionally interdependent to a much higher degree than in the case of reverse transcriptase from Moloney murine leukemia virus.
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PMID:Reconstitution in vitro of RNase H activity by using purified N-terminal and C-terminal domains of human immunodeficiency virus type 1 reverse transcriptase. 170 27

We studied the effect of the natural marine substance illimaquinone on the catalytic activities of reverse transcriptase from human immunodeficiency virus type 1. Illimaquinone inhibited the RNase H activity of the enzyme at concentrations of 5 to 10 microgram/ml, whereas RNA-dependent DNA polymerase and DNA-dependent DNA polymerase activities were considerably less susceptible to this inhibition. Two synthetic derivatives of illimaquinone, in which the 6'-hydroxyl group at the ortho position to one of carbonyl groups of the quinone ring was modified, proved ineffective in inhibiting the human immunodeficiency virus type 1 reverse transcriptase RNase H function, suggesting involvement of the 6'-hydroxyl group in blocking the enzymatic activity.
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PMID:Illimaquinone, a selective inhibitor of the RNase H activity of human immunodeficiency virus type 1 reverse transcriptase. 170 12

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

A phosphorothioate homocytidine 10-mer containing a cholesteryl moiety covalently linked to the 5'-end (Chol-SdC10) inhibited syncytium formation in susceptible T cells induced by HIV-1 and HIV-2. The syncytium inhibition effect was minimal with unmodified cytidine homopolymer of the same net charge. Chol-SdC10 was shown to protect CEM cells against infection by cell-free HIV-1 particles without any apparent toxicity to the growth of CD4+ T cells. The DNA polymerase activity of the purified reverse transcriptase (RT) of HIV-1 was markedly inhibited by Chol-SdC10 but the effect on the RNase H activity of RT was minimal. Analysis of the kinetics of reverse transcriptase inhibition mediated by the drug revealed that the inhibition at a higher concentration was competitive with respect to template primer binding and noncompetitive at lower concentrations. Chol-SdC10 also partially blocked the binding of gp120 to CD4 in a solid-phase ELISA. These results confirm that the anti-HIV activity of phosphorothioate cytidine homopolymers increases markedly by covalent modification with the cholesteryl moiety at the 5'-end and demonstrates that the cytoprotective effect is manifested at multiple steps in the virus life cycle. These steps include inhibition of retroviral replication activity as well as the binding and fusion of HIV with CD4+ T cells.
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PMID:Mode of action of 5'-linked cholesteryl phosphorothioate oligodeoxynucleotides in inhibiting syncytia formation and infection by HIV-1 and HIV-2 in vitro. 170 17

The enzyme reverse transcriptase (RT) is crucial in the early steps of the life cycle of retroviruses. We have expressed in bacteria the RTs from human immunodeficiency viruses (HIV) types 1 and 2 in order to study the structural-functional relationships of these two multifunctional enzymes that share a relatively high degree of amino acid sequence homology. For comparison purposes, we have analyzed several catalytic functions of both enzymes. The two HIV RTs show a high similarity in many aspects studied but exhibit profound differences in several other properties. For instance, the specific RNase H activity of HIV-2 RT is about 10 times lower than the corresponding activity of HIV-1 RT. There are also significant dissimilarities between some of the apparent Km values calculated for the DNA polymerizing functions of both enzymes. Furthermore, the heat stability of the DNA polymerizing activity of HIV-2 RT is about 15-fold higher than that of HIV-1 RT. On the other hand, the susceptibility of the RNase H activities of the two enzymes to heat inactivation was found to be similar. Other treatments also enable discrimination between the RNase H and DNA polymerizing catalytic properties of the two enzymes (although both reverse transcriptases respond similarily). Thus, the RNase H activity was inactivated by N-ethylmaleimide, suggesting the possible involvement of cysteine residues in performing this activity, whereas the DNA polymerizing functions of the two enzymes were fully resistant to this chemical modification. The zinc chelator 1,10-phenanthroline affected the DNA polymerase activities of both enzymes to a significantly higher extent than the RNase H activity. In all, the two HIV RTs were shown to be substantially different one from the other in several of their properties and also distinct from other RTs thus far studied.
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PMID:Catalytic properties of the reverse transcriptases of human immunodeficiency viruses type 1 and type 2. 170 12

Constructs expressing the core, surface, X, or polymerase proteins of hepatitis B virus were transfected into human cells. In transient assays, only the polymerase inhibited the responses to interferons alpha and gamma (IFN-alpha and -gamma). Stable expression of the polymerase was achieved in the cell line 2fTGH, which carries an IFN-inducible marker gene, by growth under conditions that select for inhibition of the response to IFN-alpha, but the clones grew poorly. When expressed alone, the terminal protein domain of the polymerase gene inhibited the response to IFN-alpha and the reverse transcriptase plus RNase H domains appeared to be toxic. Clones of cells expressing terminal protein alone, selected for the loss of response to IFN-alpha, grew normally and had no detectable response to IFN-alpha, IFN-gamma, or double-stranded RNA. Binding of IFN-alpha to these cells was not impaired but did not lead to activation of the E alpha subunit of the IFN-induced transcription factor E. These observations are of potential importance in relation to the pathogenesis of chronic hepatitis B virus infection and the resistance of such infection to IFN-alpha therapy.
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PMID:Expression of the terminal protein region of hepatitis B virus inhibits cellular responses to interferons alpha and gamma and double-stranded RNA. 170 74

The crystal structure of the ribonuclease (RNase) H domain of HIV-1 reverse transcriptase (RT) has been determined at a resolution of 2.4 A and refined to a crystallographic R factor of 0.20. The protein folds into a five-stranded mixed beta sheet flanked by an asymmetric distribution of four alpha helices. Two divalent metal cations bind in the active site surrounded by a cluster of four conserved acidic amino acid residues. The overall structure is similar in most respects to the RNase H from Escherichia coli. Structural features characteristic of the retroviral protein suggest how it may interface with the DNA polymerase domain of p66 in the mature RT heterodimer. These features also offer insights into why the isolated RNase H domain is catalytically inactive but when combined in vitro with the isolated p51 domain of RT RNase H activity can be reconstituted. Surprisingly, the peptide bond cleaved by HIV-1 protease near the polymerase-RNase H junction of p66 is completely inaccessible to solvent in the structure reported here. This suggests that the homodimeric p66-p66 precursor of mature RT is asymmetric with one of the two RNase H domains at least partially unfolded.
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PMID:Crystal structure of the ribonuclease H domain of HIV-1 reverse transcriptase. 184 17

The complete pol region of the simian immunodeficiency virus from African green monkeys was cloned and expressed in E. coli. The reverse transcriptase was purified to high specific activity and could be shown to contain both reverse transcriptase activity as well as an associated RNase H activity. As is observed with other reverse transcriptases the enzyme is composed of two subunits which cannot be separated by conventional techniques. When comparing the recombinant enzyme with the authentic enzyme isolated from virus no differences were found by biochemical, enzymological, or immunological criteria. Moreover, the action of inhibitors against this enzyme did not show significant differences when compared to reverse transcriptases from HIV-1 and HIV-2.
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PMID:Cloning and expression of the complete SIVagm pol region in E. coli. Purification and partial characterization of the reverse transcriptase. 170 22

The functional interaction between the RNA-dependent DNA polymerase and the RNase H activities of reverse transcriptases (RTs) were examined using a 272 nucleotide long plasmid-derived RNA transcript primed in a specific location. Properties of the avian myeloblastosis virus (AMV) RT, the human immunodeficiency virus RT and the Moloney murine leukemia virus RT were examined. All three enzymes formed stable complexes with the primer-template with half-lives ranging from about 16 to 41 s. Each enzyme synthesized full-length primer extension products and cleaved the RNA template at least once during DNA synthesis. Polymerization was then assayed in the presence of challenger RNA that effectively sequestered RTs after one round of processive DNA synthesis. This assay allowed measurement of the number of endonucleolytic cleavages catalyzed by the RT during one encounter with the primer-template. Results indicated that each of the three RTs cut the transcript before dissociating from the primer-template, whether or not deoxynucleoside triphosphates were present to allow synthesis. During synthesis, the extent of RNA degradation differed among the RTs, with AMV-RT generating mostly large segments of RNA-DNA hybrid, and virtually no small RNA cleavage products. Human immunodeficiency virus and Moloney murine leukemia virus-RT generated more small degradation products than AMV-RT, but still left much of the potentially degradable hybrid undigested. Results demonstrate that the RNase H function is much less active than the polymerization function during processive DNA synthesis and that the activities are not strictly coupled.
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PMID:Polymerization and RNase H activities of the reverse transcriptases from avian myeloblastosis, human immunodeficiency, and Moloney murine leukemia viruses are functionally uncoupled. 170 86

We describe a superfamily of Arabidopsis thaliana retrotransposable elements that consists of at least ten related families designated Ta1-Ta10. The Ta1 family has been described previously. Two genomic clones representing the Ta2 and Ta3 elements were isolated from an A. thaliana (race Landsberg erecta) lambda library using sequences derived from the reverse transcriptase region of Ta1 as hybridization probes. Nucleotide sequence analysis showed that the Ta1, Ta2 and Ta3 families share greater than 75% amino acid identity in pairwise comparisons of their reverse transcriptase and RNase H genes. In addition to Ta1, Ta2 and Ta3, we identified seven other related retrotransposon families in Landsberg erecta, Ta4-Ta10, using degenerate primers and the polymerase chain reaction to amplify a highly conserved region of retrotransposon-encoded reverse transcriptase. One to two copies of elements Ta2-Ta10 are present in the genomes of the A. thaliana races Landsberg erecta and Columbia indicating that the superfamily comprises at least 0.1% of the A. thaliana genome. The nucleotide sequences of the reverse transcriptase regions of the ten element families place them in the category of copia-like retrotransposons and phylogenetic analysis of the amino acid sequences suggests that horizontal transfer may have played a role in their evolution.
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PMID:A superfamily of Arabidopsis thaliana retrotransposons. 170 9

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