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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)

Plant DNA polymerases and E. coli DNA polymerase I, but not animal DNA polymerases or avian reverse transcriptase, are strongly stimulated by ethidium bromide (EtdBr) when TMP incorporation is followed using a short oligo dT primer at 37 degrees C. The effect is observed with a poly A template in the presence of Mg2+ or Mn2+ and of poly dA template only in the presence of magnesium ions. When a longer primer like poly dT is used, EdtBr inhibited wheat DNA polymerase C activity. This result prompted us to study the effect of the incubation temperature on the drug mediated stimulation. With oligo dT primer the stimulation by EdtBr is not observed at a temperature of incubation lower than 35 degrees C. It is shown that the Tm of poly A-dT12 is around 35 degrees C and that EdtBr will clearly increase this value. The stimulation is lost when the enzyme is preincubated with the primer alone whereas it is not affected when the enzyme is preincubated with the template.
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PMID:Ethidium bromide stimulation of DNA polymerase activity by stabilization of the primer-template duplex. 682 Nov 57

HIV-1 reverse transcriptase can catalyze the addition of either azidothymidine monophosphate (AZTMP) or thymidine monophosphate (dTMP) to a primer strand opposite template adenosine bases. The ratio of incorporation of AZTMP to dTMP as catalyzed by HIV-1 reverse transcriptase has been determined to be 0.4 using an RNA-DNA duplex substrate prepared from oligonucleotides with sequences taken from the HIV-1 genome sequence. Slight variations are found for the incorporation ratio of the two nucleotides on other substrates. Substrates containing more than one adenosine in the single-stranded part of the template allow for more chances to incorporate AZTMP and less full-length product. Variations in the intensity of bands on an autoradiograph of a DNA sequencing gel corresponding to different positions of incorporation of AZTMP suggest that not all template adenosine positions offer the same level of discrimination against incorporation of AZTMP. A reverse transcriptase containing a set of four mutations (D67N, K70R, T215Y, K219Q) known to cause resistance to AZT in cell culture assays has a ratio of incorporation that is 0.77 +/- 0.03 times the ratio for the wild-type reverse transcriptase opposite one specific template adenosine. In contrast, a hybrid mutant containing the same four mutations that cause resistance to AZT and an additional mutation, Y181C, which by itself causes resistance to the non-nucleoside inhibitor L-697,661 [Sardana et al. (1992), J. Biol. Chem. 267, 17526-17530], has a ratio of incorporation that is 1.34 +/- 0.01 times that of the wild-type, indicating that the hybrid mutant enzyme is more susceptible to inhibition by AZTTP than the wild-type reverse transcriptase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sensitivity of HIV-1 reverse transcriptase and its mutants to inhibition by azidothymidine triphosphate. 750 34

Hepadnaviruses employ a unique mechanism for the initiation of RNA-directed DNA synthesis. Initially, four bases (5'-GTAA-3') are added to a tyrosine residue of the viral polymerase by reverse transcription of a bulge sequence in epsilon, a stem-loop structure which functions as the packaging signal for pregenomic RNA. This protein-DNA complex acts as the primer for minus-strand elongation from the 3' sequence, DR1. To understand this process in greater detail, we investigated whether the protein-mediated priming of viral DNA synthesis is affected by nucleotide analogs. By using cell-free expression of duck hepatitis B virus (DHBV) reverse transcriptase (G.-H. Wang and C. Seeger, Cell 71:663-670, 1992), the 5'-triphosphate of the thymidine analog fialuridine (FIAU) was shown to inhibit the incorporation of radiolabeled TMP into primer DNA in a dose-dependent manner. Inhibition by the 5'-triphosphate of FIAU (FIAU-TP) was nearly complete at a concentration of 10 microM. The dideoxynucleotide analogs ddGTP, ddTTP, and 3'-azidodeoxythymidine triphosphate, known inhibitors of DHBV endogenous DNA polymerase, did not affect substantially the synthesis of primer DNA. Alternate substrate analysis suggested that FIAU is incorporated efficiently into nascent primer DNA as an analog of thymidine. Using site-directed mutagenesis to construct a mutant RNA template yielding a primer with the sequence 5'-GTAC-3', we demonstrated that FIAU-TP inhibited the incorporation of TMP, had no effect on that of dAMP, and decreased markedly the incorporation of dCMP. These results show that the synthesis of full-length DHBV primer DNA is inhibited by FIAU-TP but not by the dideoxynucleotide analogs that we tested. The significance of these findings as they relate to HBV DNA replication is discussed.
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PMID:Priming of duck hepatitis B virus reverse transcription in vitro: premature termination of primer DNA induced by the 5'-triphosphate of fialuridine. 752 86

Human immunodeficiency virus type-1 (HIV-1) reverse transcriptase (RT) catalyzes DNA synthesis by an ordered sequential mechanism. After template-primer (T.P) binds to free enzyme, the deoxynucleoside triphosphate to be incorporated binds to the RT and T.P binary complex (RTT.P). After incorporation of the bound nucleotide, catalytic cycling is limited either by a conformational change (for processive synthesis) or release of the enzyme from the extended T.P (for single-nucleotide incorporation). To explore cycling through these alternate rate-limiting steps, we determined kinetic parameters for single-nucleotide incorporation by HXB2R HIV-1 RT with chain-terminating nucleotide substrates 3'-azido-3'-deoxythymidine triphosphate (AZTTP) and dideoxythymidine triphosphate on a homopolymeric T.P system, poly(rA)-oligo(dT)16. Inhibition of processive deoxythymidine monophosphate incorporation by these chain-terminating substrates was also examined. Because AZTTP is a substrate, its Km should be equivalent to Ki, and since Km for AZTTP should be influenced by the dissociation rate constant for RTT.P, we examined the effect of altering RTT.P dissociation on AZTTP kinetic parameters. The dissociation rate constant was modulated by making use of different T.P substrates, viral sources of RT, and a mutant RT altered at a residue that perturbs T.P binding. As expected from earlier work, the time course of AZTMP incorporation on poly(rA)-oligo(dT)16 was biphasic, with a burst followed by a slower steady-state phase representing kcat (0.42 min-1) which was similar to the rate constant for RTT.P dissociation. Additionally, Km for AZTTP (110 nM) was lower than its equilibrium dissociation constant (1200 nM). AZTTP inhibition (Ki,AZTTP) of processive dTMP incorporation and incorporation of a single nucleotide were similar. However, a simple correlation between the RTT.P dissociation rate constant and Ki,AZTTP was not observed. These results indicate that a simple ordered model for single-nucleotide incorporation is inadequate and that different forms of RTT.P exist which can limit catalysis. The results are discussed in the context of a two-step binding reaction for T.P where the binary RTT.P complex undergoes an isomerization before binding of the deoxynucleotide substrate.
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PMID:Human immunodeficiency virus type 1 reverse transcriptase. 3'-Azidodeoxythymidine 5'-triphosphate inhibition indicates two-step binding for template-primer. 753 69

L-beta-Deoxythymidine (L-dT), the optical enantiomer of D-beta-deoxythymidine (D-dT), and L-enantiomers of nucleoside analogs, such as 5-iodo-2'-deoxy-L-uridine (L-IdU) and E-5-(2-bromovinyl)-2'-deoxy-L-uridine (L-BVdU), are not recognized in vitro by human cytosolic thymidine kinase (TK), but are phosphorylated by herpes simplex virus type 1 (HSV-1) TK and inhibit HSV-1 proliferation in infected cells. Here we report that: (i) L-dT is selectively phosphorylated in vivo to L-dTMP by HSV-1 TK and L-dTMP is further phosphorylated to the di- and triphosphate forms by non-stereospecific cellular kinases; (ii) L-dTTP not only inhibits HSV-1 DNA polymerase in vitro, but also human DNA polymerase alpha, gamma, delta and epsilon, human immunodeficiency virus reverse transcriptase (HIV-1 RT), Escherichia coli DNA polymerase 1 and calf thymus terminal transferase, although DNA polymerase beta was resistant; (iii) whereas DNA polymerase beta, gamma, delta and epsilon are unable to utilize L-dTTP as a substrate, the other DNA polymerases clearly incorporate at least one L-dTMP residue, with DNA polymerase alpha and HIV-1 RT able to further elongate the DNA chain by catalyzing the formation of the phosphodiester bond between the incorporated L-dTMP and an incoming L-dTTP; (iv) incorporated L-nucleotides at the 3'-OH terminus make DNA more resistant to 3'-->5' exonucleases. In conclusion, our results suggest a possible mechanism for the inhibition of viral proliferation by L-nucleosides.
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PMID:Stereospecificity of human DNA polymerases alpha, beta, gamma, delta and epsilon, HIV-reverse transcriptase, HSV-1 DNA polymerase, calf thymus terminal transferase and Escherichia coli DNA polymerase I in recognizing D- and L-thymidine 5'-triphosphate as substrate. 754 86

3'-Azido-2',3'-dideoxy-5-iodouridine (AzIdUrd) and 3'-azido-2',3'-dideoxy-5-bromouridine (AzBdUrd), previously shown to be potent and selective inhibitors of human immunodeficiency virus replication in vitro were minimally toxic to the uninfected human lymphoid cell line H9 (IC50 = 197 and 590 microM, respectively). Both compounds strongly inhibited the incorporation of [3H]thymidine but not [3H]deoxyadenosine into DNA, and we observed no significant inhibition of [3H]uridine incorporation into RNA or [3H]amino acid incorporation into protein. Exposure of H9 cells to AzIdUrd or AzBdUrd (100 microM, 24 hr) and pulse-labeling with [3H]thymidine resulted in approximately 80% reduction in levels of tritiated dTMP, dTDP, and dTTP relative to control. [125I]AzIdUrd was phosphorylated rapidly in H9 cells with the monophosphate accounting for over 90% of total soluble radioactivity. A relatively low but stable level of AzIdUTP was maintained over a 12-hr period. [125I]AzIdUrd was phosphorylated by a cell free extract of H9 cells at a rate approximately three times that of thymidine and its phosphorylation was inhibited by excess thymidine. AzIdUrd was found to be a competitive inhibitor of cytosolic thymidine kinase with a Ki of 2.63 microM and AzIdUMP a weak competitive inhibitor of thymidylate kinase with a Ki of 55.3 microM. Both AzIdUTP and AzBdUTP were potent competitive inhibitors of HIV-1 reverse transcriptase (Ki = 0.028 and 0.043 microM, respectively) and relatively poor inhibitors of H9 cell DNA polymerase alpha (Ki = 42.0 and 42.7 microM, respectively). Thus, the high therapeutic index of these compounds is due to the sensitivity of the viral reverse transcriptase, coupled with the relative insensitivity of the host cell DNA polymerase alpha.
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PMID:Metabolism and mode of selective inhibition of human immunodeficiency virus replication by 3'-azido-2',3'-dideoxy-5-iodouridine and 3'-azido-2',3'-dideoxy-5-bromouridine. 767 40

A minimal kinetic mechanism for HIV reverse transcriptase (RT)-catalyzed RNA-dependent and DNA-dependent DNA polymerization was determined by pre-steady-state kinetic methods to be: [formula: see text] where E, TP, dNTP, and PPi are RT, template-primer, 2'-deoxynucleoside 5'-triphosphate, and inorganic pyrophosphate, respectively. Defined sequence template-primers that encode for incorporation of dTTP were prepared by annealing either a 44-mer RNA template or a 44-mer DNA template (of the same sequence) to a 21-mer DNA primer (r44:d21-mer and d44:d21-mer, respectively). The values of the above kinetic constants were determined for dTMP and 3'-azido-3'-deoxythymidine 5'-monophosphate (AZTMP) incorporation into both template primers. The kcat and Km values calculated from these kinetic constants were similar to the values directly determined from steady-state experiments. Further, the net rate constants for processive incorporation of three successive nucleotides into the r44:d21-mer were similar indicating that a rate-determining step did not follow catalysis. A 20-fold difference in the rate constants (kp) for incorporation of dTMP into the r44:d21-mer versus the d44:d21-mer was largely responsible for the difference in the calculated processivity numbers of 340 and 5, respectively. Finally, the rate constant for pyrophosphorolysis of the 3'-AZTMP-terminated r44:d21-mer (kpyro) was similar to the rate constant for dissociation of the chain-terminated template primer from the enzyme (koff) indicating that millimolar concentrations of intracellular inorganic pyrophosphate would be required for pyrophosphorolysis of AZTMP-terminated retroviral genomes.
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PMID:Human immunodeficiency virus reverse transcriptase. A kinetic analysis of RNA-dependent and DNA-dependent DNA polymerization. 768 54

The reverse transcriptase (RT) from the human immunodeficiency virus (HIV) exists predominantly as a heterodimer (p66/p51), but can also form a homodimer of p66 subunits (p66/p66). RT binds to template-primer (T/P) tightly to form the first complex in the reaction sequence poised to conduct DNA synthesis upon the addition of dNTP and Mg2+. We have made use of this property to kinetically analyze poly(rA)-(dT)n interactions with recombinant homo- and heterodimeric HIV-1 RT derived from HXB2R proviral DNA. A T/P challenge assay was used to quantitatively follow RT-T/P complex formation. The homo- and heterodimeric forms of RT bound to poly(rA)-(dT)16 in a kinetically similar fashion. There was no more than a 2-fold difference in kcat or for any T/P parameter examined: Km, Kd, kon, koff determined from a binary complex or from a complex incorporating dTMP, processivity, and stoichiometry of binding. In contrast, it was found that the T/P Km with heterodimeric RT derived from the NY5 strain was significantly greater than that determined for HXB2R enzyme, indicating that a kinetic diversity exists between RT derived from different viral strains. Since HXB2R RT binds to poly(rA)-(dT)16 tightly, Kd < 1 nM, active-site titrations are facilitated. At saturation, one T/P binds per two polypeptides, suggesting that RT binds substrate productively as a dimer and that if monomers are present they must rapidly form dimers in the presence of T/P.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetic analysis of template.primer interactions with recombinant forms of HIV-1 reverse transcriptase. 769 May 92

The alpha-anomer of deoxyadenosine (alpha-dA) is a major adenine lesion produced by hydroxyl radicals in DNA. To assess its biochemical effects on DNA replication, alpha-dA was site-specifically incorporated into oligodeoxyribonucleotide templates using phosphoramidite chemistry. alpha-dA in the template constituted a transient block to DNA synthesis catalyzed by Escherichia coli DNA polymerase I Klenow fragment (polI), but translesional synthesis occurred after prolonged incubation. Primer extension assays and Maxam-Gilbert sequencing of newly synthesized products revealed that alpha-dA directed not only incorporation of the correct nucleotide, dTMP, opposite the lesion but also misincorporation of dAMP and dCMP. dGMP was barely incorporated under these conditions. The order of the incorporation frequency at the alpha-dA site was affected by the nearest neighbor base pair 3' to the lesion. T7 and Taq DNA polymerases, as well as RAV-2 reverse transcriptase, showed a selectivity similar to that of PolI with respect to the nucleotide incorporation opposite alpha-dA, suggesting that the discrimination of nucleotides associated with alpha-dA is independent of the origin of DNA polymerases and is an intrinsic feature of the lesion. The mutational spectrum predicted for alpha-dA (i.e., A-->G transitions and A-->T transversions) is significantly different from those reported for other hydroxyl radical induced DNA lesions such as abasic sites or 7,8-dihydro-8-oxoguanine, both primarily directing misincorporation of A. Possible biological consequences and the mechanism of dNTP discrimination associated with alpha-dA are discussed.
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PMID:Replication of DNA templates containing the alpha-anomer of deoxyadenosine, a major adenine lesion produced by hydroxyl radicals. 800 79

Two mutants of HIV-1 reverse transcriptase (RT) associated with high-level resistance of the virus to AZT (RT-AZT: D67N, K70R, T215Y, K219Q, and M41L) or 3-TC (RT-3TC: M184V) were expressed in Escherichia coli and purified. None of these mutants showed significant changes in the affinity and kinetics of binding to a DNA/DNA primer/template. RT-AZT was investigated in detail with respect to its kinetics of incorporation of nucleotides. No change in the relative rates of TMP and AZTMP incorporation could be detected for RT-AZT with respect to wild type RT. These results imply that there is no increased discrimination against AZTTP in the mutant. This was found for DNA/DNA and DNA/RNA primer/template. Additionally, rapid kinetics of incorporation of 3'-amino-3'-deoxythymidine 5'-monophosphate (a possible metabolite of AZT) were investigated and compared with TMP incorporation, but no difference in its relative rates of incorporation between wild type RT and RT-AZT was detected. In contrast, the already very slow rate of incorporation of 3-TCMP seen with wild type enzyme was drastically reduced (by a factor of 23 and 36 with DNA/DNA primer/template and DNA/RNA primer/template, respectively) for RT-3TC, showing a clear correlation between in vitro and in vivo effects. The affinity of 3-TCTP to the RT-3TC-primer/template complex was not affected by the mutation M184V. A 1.6-fold cross-resistance to ddATP, the converted form of the prodrug ddI, could also be shown for RT-3TC, but no cross-resistance to ddCTP was detected. Additionally, rapid kinetics of AZTMP incorporation by RT-3TC were investigated. There was an indication of a slightly higher rate of incorporation of AZTMP by RT-3TC than wild type RT.
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PMID:Single-step kinetics of HIV-1 reverse transcriptase mutants responsible for virus resistance to nucleoside inhibitors zidovudine and 3-TC. 925 28


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