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)

A comparison of the fidelity of reverse transcriptases (RT) from human immunodeficiency virus (HIV-1) and avian myeloblastosis virus (AMV) is made using RNA and DNA primer-template molecules in vitro. Selected template target sites containing either uracil or thymine are used to measure nucleotide insertion fidelities and to compare the efficiency of extending mismatched nucleotides at primer 3'-termini. HIV-1 reverse transcriptase is observed to incorporate as many as three consecutive mismatches and to continue efficient elongation from mismatched primer 3'-termini without discernible pausing. Nucleotide misinsertion and mispair extension efficiencies are similar for both enzymes on RNA and DNA templates having identical surrounding sequence. HIV-1 and AMV reverse transcriptases form G.T and G.U mismatches most efficiently, between 1.6 x 10(-4) and 7 x 10(-4), and both enzymes extend G.U with exceptionally high efficiencies, 2.7 x 10(-2) for HIV-1 RT and 4.5 x 10(-2) for AMV RT. Extension of the G.T mismatch is similar for AMV RT (5.8 x 10(-2) but 20-fold less efficient for HIV-1 RT. C.U and C.T mismatches are formed by both enzymes in a frequency range of 4.4 x 10(-5)-2.4 x 10(-4). HIV-1 RT extends these mismatches with slightly higher efficiencies (5.5 x 10(-3)-5.9 x 10(-3)) than AMV RT (5.6 x 10(-4)-2.1 x 10(-3)). Insertion of dTMP opposite U and T occur at about 1 x 10(-4)-2 x 10(-4) for HIV-1 RT. For AMV RT, formation of T.U mispairs occurs with an 8-fold lower efficiency, whereas insertion of dTMP opposite T is not detected. This particular DNA template sequence generates a pause site for AMV RT but not HIV-1 RT. HIV-1 RT dissociation rate constants are about 8-fold larger from a DNA primer bound to a DNA template (0.5 s-1), as compared with an RNA template (0.06 s-1) at one site, and are at most 2-fold larger at another site. The equilibrium binding constant for HIV-1 RT bound to DNA primed RNA and DNA templates appears to be similar, KD approximately 2.5 nM. Values of kpol from 0.3 to 1.5 nucleotides/s are obtained for HIV-1 RT at the RNA and DNA template sites used to measure insertion and extension fidelity. The relatively high efficiency of mispair extension catalyzed by reverse transcriptases with both RNA and DNA templates suggests that a significant component of retroviral genetic variability may be related to the ability of reverse transcriptases to continue efficient synthesis of DNA containing mismatches on both RNA and DNA templates.
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PMID:Comparison of HIV-1 and avian myeloblastosis virus reverse transcriptase fidelity on RNA and DNA templates. 137 33

Deoxynucleoside analogs, AZT and/or ddN, are the therapeutic agents currently utilized to inhibit the human immunodeficiency virus (HIV) reverse transcriptase. The effects of their anabolic products, AZT-triphosphate (AZT-TP) and ddCTP on human cellular DNA metabolic processes were studied using highly purified, structurally and enzymatically defined forms of the two major human host DNA polymerases, alpha and beta, and compared to those of the reverse transcriptase purified from HIV viron. Human DNA polymerase alpha during processive DNA synthesis is able to incorporate AZT-monophosphate (AZT-MP) but not ddCMP into DNA, causing chain termination. During its initial encounter with a primer terminus, polymerase alpha is able to incorporate both AZT-MP and ddCMP into DNA chains. Polymerase beta is able to incorporate AZT-MP and ddCMP into DNA, causing chain termination in both modes of DNA synthesis. Steady state kinetic analyses demonstrate that polymerase alpha inserts one AZT-MP molecule into DNA for every 2500 dTMP molecules incorporated. Polymerase beta incorporates ddCMP with efficiency nearly equal to that of dCMP. HIV reverse transcriptase prefers to incorporate AZT-MP and ddCMP rather than dTMP and dCMP, respectively. The findings described here raise the concern that the capability of the two major host DNA polymerases to incorporate AZT-MP or ddCMP into DNA might cause adverse side effects on human DNA metabolism and mutation in the genomes of patients under long term continuous treatment with AZT and ddC.
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PMID:Human DNA polymerases alpha and beta are able to incorporate anti-HIV deoxynucleotides into DNA. 140 Apr 58

The particulate fractions of culture supernatants from peripheral blood mononuclear cells from 39 patients with Kawasaki disease (KD) were examined for the presence of particle-associated reverse transcriptase activity. The peak polymerase activity was significantly higher in cultures from KD patients compared to controls (mean = 6.4 versus 3.6 pmol of dTMP incorporated, p = 0.001). PBMC cultured between the 3rd and 9th wk after onset of fever were most likely to be associated with reverse transcriptase activity. Peak polymerase activity was positively associated with older age (r = 0.41, p = 0.01) and greater magnitude of the serum IgA response at 7-14 d after onset of fever (r = 0.45, p = 0.01) and IgM response at 6-9 wk after onset of fever (r = 0.46, p = 0.01). The appearance of enzyme activity was not associated with a decrease in viability of the cultured cells. A purified enzyme preparation showed radiolabel incorporation only with an RNA template with DNA primer. These data suggest that circulating mononuclear cells from KD patients may harbor a polymerase-associated agent and that these cells can be most readily detected in the early convalescent phase of KD from older patients who mount a marked humoral immune response.
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PMID:Characterization of the polymerase activity associated with cultured peripheral blood mononuclear cells from patients with Kawasaki disease. 169 Mar 83

The reverse transcriptase (RT) was partially purified by a newly developed procedure from the simian immunodeficiency virus TYO-7 isolated from an African green monkey (SIVagmTYO-7). The method comprised lysis of the virus with nonionic detergent followed by two centrifugations in isopycnic sucrose density gradients and one velocity sedimentation in a glycerol gradient. The enzyme exhibited a purity of 70-80% and showed an exceptional high specific activity of 135 nmol incorporation of dTMP per milligram of protein in 1 h with poly(rA).oligo(dT) as template-primer (TP). The molecular weight of the native enzyme was estimated by velocity sedimentation analysis as 120K-130K. Investigation of the RT by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) showed that the active enzyme is a heterodimer composed of a 64- and a 50-kDa subunit. The two subunits were identified to be RT specific by Western blot analysis. In activity gels, both subunits exhibited enzymatic activity, whereby the 64-kDa subunit showed the predominant activity. The RT preferred the TP poly(rA).oligo(dT) over poly(rC).oligo(dG). With poly(rCm).oligo(dG), only marginal activity was detected, and no activity was measured with poly(dA).oligo(dT). The TP specificity was influenced by the reaction temperature. The highest activity was measured around the melting temperature of the TP used. Furthermore, the enzyme activity was more thermolabile when measured with poly(rA).oligo(dT) than with poly(rC).oligo(dG). To compare the specificity of RT inhibitors, their inhibition efficiency (IE) was defined as the ratio of the 50% inhibiting concentration (ID50) obtained with the RT in viral lysates to the ID50 of purified RT.
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PMID:Partial purification and characterization of the reverse transcriptase of the simian immunodeficiency virus TYO-7 isolated from an African green monkey. 169 22

In the presence of oligo(dT).poly(rA) as primer-template, 3'-azidothymidine triphosphate (N3'(3)-ddTTP) is a substrate for human immunodeficiency virus 1 reverse transcriptase with an apparent Km value of 3.0 microM. This compares with an apparent Km for thymidine monophosphate (dTMP) incorporation of 2.5 microM. The apparent Vmax value for 3'-azidothymidine monophosphate (N3'(3)-ddTMP) incorporation is 50 times lower than that of dTMP incorporation. Kinetic analysis of the inhibition of reverse transcriptase by N3'(3)-ddTTP shows competitive inhibition with thymidine triphosphate (dTTP) with a Ki of 41 nM and an uncompetitive pattern of inhibition with template-primer having a Ki of 140 nM. This indicates incorporation of the analogue into the primer and inhibition of the enzyme by formation of a dead-end complex. The 3'-azidothymidine-terminated primer-template [N3'(3)-ddT-(dT)15.poly(rA)] is a potent competitive inhibitor versus primer-template with a Ki of 2.4 nM and shows mixed-type inhibition against dTTP with a Ki of 8 nM. The low inhibition constant for this chain-terminated primer suggests that such oligonucleotides can act as potent inhibitors of enzyme catalysis.
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PMID:Inhibition of human immunodeficiency virus 1 reverse transcriptase by 3'-azidothymidine triphosphate. 169 26

3'-Azido-3'-deoxythymidine 5'-triphosphate (AZTTP) was an efficient substrate for the human immunodeficiency virus 1 reverse transcriptase. It was incorporated into both homopolymer and defined sequence DNA-primed RNA templates and DNA-primed DNA templates. The substrate and inhibitor kinetics of both AZTTP and dTTP were dependent on the template-primer and reaction conditions used. dTMP was incorporated into poly(rA).oligo(dT) and into a defined sequence DNA-primed RNA template (when the other three 2'-deoxynucleoside 5'-triphosphates were present) as a conventional substrate, with steady-state Km values of 5-10 microM. The results suggest that the reverse transcriptase was capable of processive DNA polymerization on these DNA-primed RNA templates. In contrast, in the absence of the other three 2'-deoxynucleoside 5'-triphosphates, the time course for incorporation of dTMP into the same defined sequence DNA-primed RNA template was biphasic. A burst of product formation was observed followed by a slow steady-state rate with a Km value of 0.082 microM. AZTMP incorporation into poly(rA).oligo(dT) and into the defined sequence DNA-primed RNA template produced similar biphasic time courses and steady-state Km values. These results were consistent with rate-limiting dissociation of the polymerase.template-primer complex after "forced" termination of polymerization. AZTMP and dTMP were both incorporated into the homopolymer DNA-primed DNA template, poly(dA).oligo(dT), and a defined sequence DNA-primed DNA template as conventional substrates. Their Km values were similar (2-10 microM). The absence of biphasic time courses suggested that dissociation of the DNA-primed DNA templates from the enzyme, after forced termination, was not rate-limiting. This was consistent with a more distributive mode of DNA polymerization. With the defined sequence template-primers and poly(dA).oligo(dT), Ki values for both dTTP and AZTTP were comparable to their Km values. Thus, AZTTP appeared to be a simple competitive substrate-inhibitor with respect to dTTP. AZTTP inhibition of dTMP incorporation into poly(rA).oligo(dT) was linear competitive at low concentrations (0-100 nM) of AZTTP (Ki = 35 nM) but became hyperbolic (decreasing potency) at concentrations of AZTTP above this range. A mechanism for this nonlinear inhibition is discussed.
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PMID:Human immunodeficiency virus reverse transcriptase. Substrate and inhibitor kinetics with thymidine 5'-triphosphate and 3'-azido-3'-deoxythymidine 5'-triphosphate. 170 Jul 87

Human immunodeficiency virus 1 (HIV-1) reverse transcriptase has been found to conduct error-prone synthesis on DNA and RNA templates. We find here that tolerance of an A:G mispair with poly(rA) as template is particularly strong, such that extensive poly(dG) synthesis is conducted. This type of extensive misincorporation is not observed with several reference DNA polymerases. Surprisingly, HIV reverse transcriptase processivity and kcat for dGMP misincorporation and normal dTMP incorporation are about the same. However, the Km value for dGTP in poly(dG) synthesis is approximately 1000-fold higher than the Km for dTTP in poly(dT) synthesis. Comparison of thermodynamic parameters for dGMP misincorporation and normal dNMP incorporation indicates a lower energy of activation for dGMP misincorporation than for normal dNMP incorporation. Entropy of activation (delta S*) for normal dTMP incorporation is positive (approximately 10 cal/kmol), whereas delta S* for dGMP misincorporation is negative (-36 cal/kmol). Since differences in delta S* are usually considered to reflect differences in solvation for the transition state complex, these results are consistent with the interpretation that the active site of HIV reverse transcriptase is flexible enough to misincorporate dGMP without the usual dispersion of water molecules.
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PMID:Thermodynamics of A:G mismatch poly(dG) synthesis by human immunodeficiency virus 1 reverse transcriptase. 170 95

The in vitro fidelity of highly purified recombinant reverse transcriptase from simian immunodeficiency virus of African green monkeys (SIVagm) was determined. By using the phi X174am16 reversion assay an overall error rate of 1/19,000 was determined. This is 2.4-fold higher than the overall accuracy of purified recombinant HIV-1 reverse transcriptase, measured in parallel. The evaluation of error frequencies from nucleotide pool bias studies suggest an even higher accuracy for the SIVagm-derived reverse transcriptase. T:dGMP mismatches were formed most frequently with an error rate of 1/155,000, followed by G:dGMP (1/230,000), A:dGMP (1/315,000), G:dAMP (1/340,000), T:dCMP (1/540,000), T:dTMP (1/790,000), and A:dCMP (1/1,050,000) mispairs. Thus, according to pool bias effects and depending on the mismatch under consideration SIVagm reverse transcriptase appears to be 2 to 20-fold more accurate than the homologous enzyme from the human immunodeficiency virus type 1. This higher accuracy is not due to a co-purifying exonuclaease activity. Like the enzyme from HIV-1, the simian monkey-derived enzyme was found to be devoid of a proofreading 3' to 5' exonuclease.
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PMID:Fidelity of reverse transcriptase of the simian immunodeficiency virus from African green monkey. 170 65

Succinylfluorescein-labeled dideoxyTTP has been used as a substrate for reverse transcriptase from HIV-1. On addition to the 3'-end of a primer molecule, there is a reduction of fluorescence yield of a factor of ca. 4. Release of a fluorescent DNA/DNA primer/template duplex from its complex with reverse transcriptase results in a reduction of fluorescence by a further factor of 2. The fluorescent nucleotide is incorporated somewhat less efficiently than 3'-azidoTMP and TMP, which show similar incorporation kinetics. Fluorescent chain-terminated primers have been used to investigate the interaction of normal and chain-terminated primer/template complexes with reverse transcriptase. The dissociation constant of a 36/18-mer was 0.65 nM, whereas that of the same complex after the addition of the fluorescent chain-terminating nucleotide to the primer was 3 nM at 25 degrees C. The rate of dissociation of the latter complex from the enzyme was 0.04 s-1. This was decreased by a factor of ca. 10 at high concentrations (greater than 200 microM) of the nucleotide triphosphate complementary to the next position of the template. The results obtained suggest that potent inhibition of reverse transcriptase activity in in vitro assays results from formation of a slowly dissociating complex between the enzyme and chain-terminated primer/template complexes. However, arguments are presented that lead to the conclusion that this is not the mode of inhibition in cells invaded by HIV. At the prevailing relative concentrations in this situation, chain termination resulting in incomplete transcription is likely to be the major factor.
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PMID:Interaction of fluorescently labeled dideoxynucleotides with HIV-1 reverse transcriptase. 170 67

Poly(rA).oligo(dT)n binding to human immunodeficiency virus type-1 reverse transcriptase heterodimer (p66-p51) was primer length-dependent. The estimated Kd for (n = 10-14) was 20-30 nM and for (n = 16-20) was 0.11-0.14 nM. Gel electrophoretic analysis of the patterns of primer extension was consistent with an abrupt change in the Kd between a primer length of 14 and 16 nucleotides. Further, the rate constant for dissociation of the reverse transcriptase-template-primer complex was determined from steady state kinetics and enzyme-template-primer trapping experiments to be independent of primer length. Thus, the abrupt change in Kd was most likely due to a change in the rate constant for formation of the reverse transcriptase-template-primer complex. A similar shift in the Kd for template-primer binding was observed with poly(dA).oligo(dT)n. Reverse transcriptase homodimer (p66) catalyzed the incorporation of dTMP into poly(rA).oligo(dT)n with the same primer length dependence observed for the heterodimer. In contrast, binding of the p51 homodimer to poly(rA).oligo(dT)n was independent of primer length. Thus, the RNase H domain may contribute to reverse transcriptase heterodimer or p66 homodimer binding to template-primers in which the primer length is greater than 14 nucleotides.
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PMID:Human immunodeficiency virus reverse transcriptase. Effect of primer length on template-primer binding. 171 16

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