Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The unusually high error rate of human immunodeficiency virus type 1 reverse transcriptase (HIV-1 RT) suggests that polymerization errors by this enzyme contribute to the genetic variability of the AIDS virus. We have analyzed the mechanism for HIV-1 RT infidelity by studying two distinct steps that might lead to base substitution mutations: nucleotide misinsertions and elongation from 3'-terminal DNA mispairs. Our results indicate that the capacity of HIV-1 RT to polymerize nucleotides onto mispaired termini is a major factor in the production of mutations by this enzyme. When a noncomplementary dAMP was inserted opposite a template adenine by HIV-1 RT, the nascent 3'-terminal A.A mispair was readily extended by subsequent incorporation of the next complementary nucleotide. The frequencies of nucleotide addition onto 3'-terminal A-A, A-C, and A-G mispairs were determined by quantitating the amount of extended primers with a gel electrophoresis assay and by measuring mutagenesis after hybridization of mismatched primers opposite an amber mutation in bacteriophage phi X174 DNA. The mispair extension frequencies are approximately 50-fold higher by HIV-1 RT than by the mammalian replicative enzyme DNA polymerase alpha.
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PMID:Extension of mismatched 3' termini of DNA is a major determinant of the infidelity of human immunodeficiency virus type 1 reverse transcriptase. 247 23

Thymine glycol, a DNA lesion produced by ionizing radiation, has been introduced site specifically at high frequency into a synthetic oligonucleotide by chemical oxidation of the single thymine residue within the sequence. The lesion-containing template was then annealed to a complementary synthetic primer and used to study the effects of cis-thymine glycol lesions on DNA polymerase function in vitro. Synthesis by polymerase I (Klenow fragment), T4 DNA polymerase, and polymerase alpha 2 was arrested quantitatively at the site of the lesion. AMV reverse transcriptase was less inhibited and was able to synthesize past a significant fraction of the lesions. Changing the template base immediately 5' to thymine glycol from A to C did not significantly alter the pattern of synthesis arrest for any of the polymerases. The correct nucleotide, dAMP, was inserted opposite the lesion more than 90% of the time by all four polymerases, suggesting that thymine glycol forms a reasonably stable base pair with adenine. However, the 3'-5' exonuclease activity of polymerase I removed a 3'-terminal dAMP residue more rapidly from an A . thymine glycol base pair than from an A.T base pair. These results suggest that increased nucleotide turnover at the site of the lesion contributes to the inhibitory effects of thymine glycol lesions on DNA synthesis in vitro, at least for polymerases such as polymerase I that have intrinsic or associated editing exonuclease functions.
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PMID:Functional effects of cis-thymine glycol lesions on DNA synthesis in vitro. 367 59

M13 DNA containing 20-30 apurinic/apyrimidinic (AP) sites per intact circular molecule was prepared by growing phage on an ung- dut- Escherichia coli mutant and treating the DNA with uracil N-glycosylase. AP sites obstruct in vitro DNA synthesis catalyzed by E. coli pol I. The position at which termination of synthesis occurs was determined for four enzymes. T4 DNA polymerase terminates one nucleotide before putative AP sites. DNA pol I, AMV reverse transcriptase, and DNA polymerase alpha terminate synthesis either before or at the site of an AP lesion depending on the particular sequence. We determined the identity of the nucleotide inserted opposite an AP site by synthesizing up to the lesion in a first-stage reaction using T4 DNA polymerase and then determining elongation in a second stage. Purines are inserted opposite AP sites more readily than pyrimidines, and dATP is more efficient than dGTP in promoting such elongation. The DNA-dependent conversion of dNTP to dNMP was determined in mixtures of all four dNTP's by using AP DNA. The production of dAMP from dATP occurs most readily. We conclude that there is an inherent specificity for the incorporation of adenine nucleotides opposite AP sites in this in vitro system. Insofar as the model system reflects in vivo mutational events, our data suggest that depurination should produce transversions and depyrimidination should produce transitions.
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PMID:Insertion of nucleotides opposite apurinic/apyrimidinic sites in deoxyribonucleic acid during in vitro synthesis: uniqueness of adenine nucleotides. 635 60

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

4'-Azidothymidine (ADRT) is a novel nucleoside analogue that exhibits potent inhibitory activity against the replication of human immunodeficiency virus (HIV) in lymphocytes. The mechanisms by which ADRT inhibits HIV reverse transcriptase (HIV-RT) as ADRT 5'-triphosphate (ADRT-TP), the active intracellular metabolite of ADRT, and as the ADRT-MP molecule incorporated into DNA were examined and compared to their effects on human DNA polymerases alpha and beta. Inhibition of HIV-RT by ADRT-TP is competitive against TTP and is more potent against RNA to DNA synthesis (Ki = 0.009 microM versus Km = 3.3 microM for TTP) than it is against DNA to DNA synthesis (Ki = 0.95 microM versus Km = 16.3 microM for TTP). ADRT-TP is also a more potent inhibitor for primer elongation on RNA template than on DNA template. ADRT-TP is a poor inhibitor of human DNA polymerases alpha (Ki = 62.5 microM) and beta (Ki = 150 microM) (Chen et al., 1992). The consequences of ADRT incorporation into DNA are strikingly different for the HIV-RT and for human DNA polymerases alpha and beta. DNA polymerases alpha and beta incorporate a single ADRT-MP molecule into nascent DNA at a very slow rate and continue to elongate. They are unable to incorporate a second consecutive ADRT-MP. However, HIV-RT is able to efficiently incorporate two consecutive ADRT molecules. Incorporation of two consecutive ADRT-MP molecules by HIV-RT prevents further DNA chain elongation. Incorporation of two ADRT-MP molecules separated by one deoxyribonucleoside monophosphate (dAMP, dCMP, or dGMP) also abolishes DNA chain elongation by HIV-RT.
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PMID:Selective action of 4'-azidothymidine triphosphate on reverse transcriptase of human immunodeficiency virus type 1 and human DNA polymerases alpha and beta. 768 86

We have expressed and purified from Escherichia coli a human immunodeficiency virus type 1 (HIV-1) RNase H domain consisting of amino acids 400 to 560 of reverse transcriptase with either an N- or C-terminal polyhistidine tag. The native protease cleavage site of HIV-1 reverse transcriptase is between amino acids 440 and 441. Purification on Ni(2+)-nitrilotriacetate agarose resulted in a highly active RNase H domain dependent on MnCl2 rather than MgCl2. Activity was unambiguously attributed to the purified proteins by an in situ RNase H gel assay. Residues 400 to 426, which include a stretch of tryptophans, did not contribute to RNase H activity, and the polyhistidine tag was essential for activity. Despite the requirement for a histidine tag, the recombinant RNase H proteins retained characteristics of the wild-type heterodimer, as determined by examining activity in the presence of several known inhibitors of HIV-1 RNase H, including ribonucleoside vanadyl complexes, dAMP, and a monoclonal antibody. Importantly, the isolated RNase H domain produced the same specific cleavage in tRNA(3Lys) removal as HIV-1 heterodimer, leaving the 3'-rA (adenosine 5' phosphate) residue of a model tRNA attached to the adjacent U5 sequence. This HIV-1 RNase H domain sedimented as a monomer in a glycerol gradient.
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PMID:Purification and characterization of an active human immunodeficiency virus type 1 RNase H domain. 768 7

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

The antiviral activity of 2'-fluoro-5-methyl-beta-L-arabinofuranosyluracil (L-FMAU), a novel L-nucleoside analog of thymidine known to be an inhibitor of hepatitis B virus (HBV) replication in hepatoma cells (2.2.1.5 cell line), was evaluated in the duck HBV (DHBV) model. Short-term oral administration (5 days) of L-FMAU (40 mg/kg of body weight/day) to experimentally infected ducklings induced a significant decrease in the level of viremia. This antiviral effect was sustained in animals when therapy was prolonged for 8 days. The histological study showed no evidence of liver toxicity in the L-FMAU-treated group. By contrast, microvesicular steatosis was found in the livers of dideoxycytidine-treated animals. L-FMAU administration in primary duck hepatocyte cultures infected with DHBV induced a dose-dependent inhibition of both virion release in culture supernatants and intracellular viral DNA synthesis, without clearance of viral covalently closed circular DNA. By using a cell-free system for the expression of an enzymatically active DHBV reverse transcriptase, it was shown that L-FMAU triphosphate exhibits an inhibitory effect on the incorporation of dAMP in the viral DNA primer. Thus, our data demonstrate that L-FMAU inhibits DHBV replication in vitro and in vivo. Long-term administration of L-FMAU for the eradication of viral infection in animal models of HBV infection should be evaluated.
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PMID:Inhibitory effect of 2'-fluoro-5-methyl-beta-L-arabinofuranosyl-uracil on duck hepatitis B virus replication. 952 88

The role of photoproduct structure, 3' --> 5' exonuclease activity, and processivity on polynucleotide synthesis past photoproducts of thymidylyl-(3' --> 5')-thymidine was investigated. Both Moloney murine leukemia virus reverse transcriptase and 3' --> 5' exonuclease-deficient (exo-) Vent polymerase were blocked by all photoproducts, whereas Taq polymerase could slowly bypass the cis-syn dimer. T7 RNA polymerase was able to bypass all the photoproducts in the order cis-syn > Dewar > (6-4) > trans-syn-II. Klenow fragment could not bypass any of the photoproducts, but an exo- mutant could bypass the cis-syn dimer to a greater extent than the others. Likewise T7 DNA polymerase, composed of the T7 gene 5 protein and Escherichia coli thioredoxin, was blocked by all the photoproducts, but the exo- mutant Sequenase 2.0 was able to bypass them all in the order cis-syn > Dewar > trans-syn-II > (6-4). No bypass occurred with an exo- gene 5 protein in the absence of the thioredoxin processivity factor. Bypass of the cis-syn and trans-syn-II products by Sequenase 2.0 was essentially non-mutagenic, whereas about 20% dTMP was inserted opposite the 5'-T of the Dewar photoproduct. A mechanism involving a transient abasic site is proposed to account for the preferential incorporation of dAMP opposite the 3'-T of the photoproducts.
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PMID:The ability of a variety of polymerases to synthesize past site-specific cis-syn, trans-syn-II, (6-4), and Dewar photoproducts of thymidylyl-(3'-->5')-thymidine. 970 33

(R)-9-(2-Phosphonylmethoxypropyl)adenine (PMPA) is an acyclic nucleoside phosphonate that has been shown to be effective in the treatment of AIDS although it has a shorter separation between the adenine and phosphorus than dideoxy-AMP and dAMP. By using pre-steady state kinetic methods, we examined the incorporation of the diphosphate of PMPA, 2',3'-dideoxyadenosine 5'-triphosphate (ddATP), and dATP catalyzed by wild-type human immunodeficiency virus type 1 (HIV-1) reverse transcriptase, an exonuclease-deficient T7 DNA polymerase (T7 exo-), and wild-type rat DNA polymerase beta in order to evaluate the selectivity of PMPA as an antiviral inhibitor. With a DNA/DNA or DNA/RNA 22/43-mer duplex, the diphosphate of PMPA (PMPApp) is as effective as ddATP in reactions catalyzed by HIV-1 reverse transcriptase in that both analogs have similar substrate specificity constants (kp/Kd) which are only 5-fold lower than dATP. In contrast, PMPApp is a much weaker inhibitor of the reaction catalyzed by T7 exo- (with the DNA/DNA 22/43-mer duplex) in that PMPApp has a 5 x 10(-4)-fold lower kp/Kd than ddATP and dATP. The lower kp/Kd of PMPApp is due to a 1000-2000-fold lower incorporation rate (kp) and a 35-45-fold lower binding constant (Kd). Similarly, PMPApp is 800-fold less inhibitory toward polymerase beta with the DNA/DNA 22/43-mer duplex, whereas in studies with a single nucleotide gapped DNA (22-20/43-mer) PMPApp is 13-fold less inhibitory than ddATP. Although parallel studies will need to be performed using appropriate human polymerases, these results begin to define the mechanistic basis for the reported lower toxicity of PMPA in the treatment of AIDS.
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PMID:Selective inhibition of HIV-1 reverse transcriptase by an antiviral inhibitor, (R)-9-(2-Phosphonylmethoxypropyl)adenine. 976 48


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