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)

An RNA-directed DNA polymerase associated with transformation-defective (td) segregant of Rous sarcoma virus (RSV) has been characterized. The enzyme required both a monovalent and a divalent cation, a sulfhydryl reducing agent, and all four deoxyribonucleoside triphosphates for the expression of maximal activity. Sensitivity of the endogenous RNA-directed DNA polymerase activity to a low concentration of pancreatic RNase indicated that the enzyme utilized the td virus endogenous RNA as template. Maximal DNA synthesis was observed in a reaction mixture of pH 8 - 8.5 at 45 C with a manganese concentration of 1 mM. The enzyme of the td virus responded to exogenous template-primers in a manner characteristic of DNA polymerase of RNA tumor viruses, and the response became substantially greater when noncomplementary precursors were omitted from the reaction mixture. The endogenous reaction kinetics were examined. Three phases of DNA synthesis could be distinguished. Evidence was obtained showing that during the third and slowest phase of DNA synthesis the reaction mixture was not depleted of precursors and that the enzyme was fully active to initiate DNA synthesis with newly-added viral or synthetic RNA templates. Comparison of TMP and dAMP incorporation kinetics suggested that at the initial phase the enzyme preferentially copies A-rich region(s) of viral RNA. A comparison was also made between the endogenous reaction of the td virus and that of its parent sarcoma virus. The pH optimum, metal ion requirements, effect of sulfhydryl agents, response to exogenous template-primers, and kinetics of DNA synthesis, were all compared. No significant difference between the reaction of the td virus and its sarcomatogenous counterpart could be demonstrated.
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PMID:Endogenous DNA polymerase of a transformation-defective rous sarcoma virus: characterization and comparison with the enzyme of the non-defective parent. 6 91

Conditions are described which give an efficient synthesis of DNA copies of cowpea mosaic virus (CPMV) RNAs, using avian myeloblastosis reverse transcriptase and oligo (dT) primers. Maximum incorporation of dAMP into cDNA is attained with 0.4 to 0.8 mM of each deoxynucleoside triphosphate, 12 mM Mg++ and 60 mM K+ ion concentrations. High enzyme concentrations (up to 100 units/ml) were used. Under these conditions over 1000 pmoles of dAMP were incorporated per reaction. The cDNA:RNA molar ratio approached 0.3 when 1 pmole CPMV RNA was used as template. The products were heterogeneous but large. Bottom component RNA (about 6000 nucleotides long) was copied into cDNA molecules ranging from about 1000 to 4000 nucleotides, and middle component RNA (about 4000 nucleotides long) was copied into cDNA mostly between 500 and 2000 nucleotides long, on average about 1500, which can be cleaved by restriction endonuclease Hae III into two fragments of 880 and 540 nucleotides.
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PMID:Efficient reverse transcription of cowpea mosaic virus RNAs. 8 93

We have demonstrated that the synthesis of cDNA by avian myeloblastosis virus and Moloney murine leukemia virus reverse transcriptases can be prevented by oligonucleotides bound to the RNA template approximately 100 nucleotides remote from the 3' end of the primer. The RNA was truncated at the level of the antisense oligonucleotide-RNA duplex during the reverse transcription. The key role played by the reverse transcriptase-associated RNase H activity in the inhibition process was shown by the use of (i) inhibitors of RNase H (NaF or dAMP), (ii) Moloney murine leukemia virus reverse transcriptase devoid of RNase H activity, or (iii) alpha-analogues of oligomers that do not elicit RNase H-catalyzed RNA degradation. In all three cases the inhibitory effect was either reduced (NaF, dAMP) or totally abolished. However, an alpha-oligomer bound to the sequence immediately adjacent to the primer-binding site prevented reverse transcription. Therefore, initiation of polymerization can be blocked by means of an RNase H-independent mechanism, whereas arrest of a growing cDNA strand can be achieved only by an oligonucleotide mediating cleavage of the template RNA.
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PMID:Mechanisms of the inhibition of reverse transcription by antisense oligonucleotides. 137 May 86

The genomic hypervariation of human immunodeficiency virus 1 (HIV-1) could result from misincorporations by the viral reverse transcriptase. We developed an assay for reverse transcriptase fidelity during RNA-dependent as well as DNA-dependent DNA polymerization in vitro. A lacZ alpha RNA fragment transcribed by T3 RNA polymerase was used to mimic first-strand reverse transcription. The corresponding DNA template was used to examine errors by reverse transcriptase during second-strand DNA synthesis. With both templates, the mutations introduced by reverse transcriptase were identified by their mutant phenotypes in an M13 lacZ alpha-complementation assay. We found that the reverse transcriptase from human immunodeficiency virus 1 (HIV-1 RT) was less accurate than the reverse transcriptase from Moloney murine leukemia virus (MLV RT) or the Klenow fragment of Escherichia coli DNA polymerase I (Pol I) on either RNA or DNA templates. The frequency of misincorporation by HIV-1 RT was 1 in 6900 nucleotides polymerized on the RNA template and 1 in 5900 on the DNA template. The error rates of MLV RT and Pol I on the RNA template were less than 1 in 28,000 and 37,000, respectively. The most frequent mutations produced by HIV-1 RT copying the RNA template were C----T transitions and G----T transversions resulting from misincorporation of dAMP.
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PMID:Fidelity of HIV-1 reverse transcriptase copying RNA in vitro. 137 Sep 10

Human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) (EC 2.7.7.49) with a high specific activity has been purified from the overexpressing Escherichia coli strain DH5 alpha [pJS3.7]. Steady-state kinetics of DNA synthesis catalysed by RT were analysed on polyriboadenylate 20-mer of (3'-5')deoxythymidylate [poly(rA).(dT)20] and polyribouridylate 20-mer of (3'-5')-deoxyadenylate [poly(rU).(dA)20] homopolymeric template-primers. Km values of 40 and 140 nM (3'-OH ends) and kcat values of 4 and 0.14 sec-1 were determined for the two different substrates. Oligonucleotide primers (dA)20 and (dT)20 were elongated in a terminal transferase-catalysed reaction (EC 2.7.7.31) with ddATP, 3'-dATP (cordycepin), 2',3'-epoxy-ATP and arabino-ATP; and ddTTP, 3'-azido-TTP, 3'-dUTP, 3'-F-dTTP and rUTP, respectively. The resulting oligonucleotides were hybridized to their complementary templates and the inhibitory potential of these compounds towards DNA synthesis started from unchanged primers was measured. Oligonucleotides with unextendable 3'-groups were shown to act as strong inhibitors of DNA synthesis catalysed by HIV-1 RT. In particular, poly(rA).(dT)20-[ddTMP] and poly(rU).(dA)20-[3'-dAMP] were potent competitive inhibitors, displaying Ki values of about 6 and 12 nM, respectively. Also 3'-azido-, and 3'-fluoro-terminated oligonucleotides showed competitive inhibition with inhibition constants in the range of 20-35 nM. In contrast, 2',3'-epoxy-terminated (dA)21 displayed a mixed-type inhibition with a Ki value of 67 nM. Arabino-terminated (dA)21 was found to be an uncompetitive inhibitor of HIV-1 RT with an inhibition constant of 318 nM. Arabino-terminated primers did not act as strict chain terminators because they could be elongated by HIV-1 RT. This study provides information on the structure-activity relationship of modified 3'-termini of primer molecules which might be exploited as inhibitors of HIV in the future.
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PMID:Inhibition of human immunodeficiency virus type 1 reverse transcriptase by 3'-blocked oligonucleotide primers. 137 38

5-Methylcytosine has been postulated to be an endogenous mutagen in procaryotes and eucaryotes leading to base substitution hot spots, C-->T transitions, resulting from spontaneous deamination of mC to T. The possibility remains, however, that a second mechanism involving mispairing of mC with A might also contribute to base substitution mutagenesis via G-->A transitions. Stimulation of the G-->A mutational pathway could involve preferential misincorporation of dAMP opposite template mC compared to C. To investigate this possibility, we synthesized a sequence containing mC at a defined template location. We compared the fidelity of copying mC versus C and the efficiency of extending mismatched base pairs at the mC position using three DNA polymerases, AMV reverse transcriptase, Drosophila DNA polymerase alpha, and mutant Escherichia coli Klenow fragment containing no proofreading exonuclease activity. Significant differences in misinsertion and mismatch extension efficiencies were observed only for the case of AMV reverse transcriptase. AMV reverse transcriptase was observed to incorporate dAMP 4 to 5-fold more efficiently opposite mC than C. Favored extension of a 5-MeC.A over C.A mispair was also observed with a difference of about 3-fold. In contrast to AMV reverse transcriptase, Klenow fragment showed no significant difference when copying either mC or C sites or when extending mispairs involving mC and C. Incorporation of dAMP opposite either C or mC was barely detectable using pol alpha, although pol alpha has been observed to form A.C mismatches in other sequences. While we cannot completely exclude the possibility that dAMP might be incorporated opposite mC in preference to C, our results suggest that contributions of the G-->A pathway to mC mutagenic hot spots are likely to be minor, lending additional support to the model invoking deamination of mC.
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PMID:A comparison of the fidelity of copying 5-methylcytosine and cytosine at a defined DNA template site. 138 39

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

Nalidixic acid, a very specific inhibitor of bacterial DNA synthesis, has been studied for its action on the avian myeloblastosis virus reverse transcriptase activity. The drug inhibited the DNA synthesis reaction catalyzed by the viral enzyme in the presence of different template-primers. The inhibitory effect by nalidixic acid was higher with polyriboadenylic acid than with polyribocytidylic acid as a synthetic template. With activated DNA as a template nalidixic acid preferentially inhibited the TMP incorporation when compared with the dAMP incorporation. Both these results showed the importance of the presence of adenine in the templates for a more efficient inhibition by nalidixic acid. The inhibition for this drug was also shown in the presence of Mn2+ instead of Mg2+ as the divalent cation, and with a 2'-fluorinated analogue of polyriboadenylic acid as the template. Kinetic data showed a non-competitive inhibition by nalidixic acid in relation to polyriboadenylic acid and to TTP in the reaction catalyzed by reverse transcriptase.
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PMID:Avian myeloblastosis virus reverse transcriptase inhibition by nalidixic acid. 172 88

A synthetic procedure has been developed by which stable abasic sites are introduced into oligodeoxynucleotides at any desired position in the sequence. A modified tetrahydrofuran moiety, isosteric with 2'-deoxyribofuranose, serves as a structural analog of the natural apurinic/apyrimidinic site. We have also prepared oligodeoxynucleotides that lack cyclic structure at the abasic site but retain the carbon atoms of the phosphodiester backbone. These synthetic oligodeoxynucleotides are cleaved on the 5' side of the abasic site by endonuclease IV and by exonuclease III; they serve also as templates for avian myeloblastosis virus reverse transcriptase, Escherichia coli DNA polymerase I (Klenow fragment), and calf thymus DNA polymerase-alpha. Extension of primed templates by these DNA polymerases is blocked initially at the position immediately 3' to the abasic site; nucleoside monophosphates are subsequently incorporated opposite the lesion. The nucleotide most frequently incorporated opposite all abasic sites, regardless of structure, is dAMP. Significant "readthrough" at the abasic site was observed in experiments using avian myeloblastosis virus reverse transcriptase and DNA polymerase-alpha and, to a much lesser degree, with DNA polymerase I. We conclude that a modified tetrahydrofuran group can serve as a stable structural analog of 2'-deoxyribose in the apurinic/apyrimidinic site. These modified oligodeoxynucleotides should prove useful for studies of chemical mutagenesis.
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PMID:Oligodeoxynucleotides containing synthetic abasic sites. Model substrates for DNA polymerases and apurinic/apyrimidinic endonucleases. 244 Aug 61

Reverse transcriptase from the human immunodeficiency virus type I (HIV-1) was expressed in E. coli and purified to near homogeneity. The enzyme was shown to contain reverse transcriptase, DNA polymerase and ribonuclease H activities. The DNA polymerase activity converted singly-primed phi X174 (+) DNA into the double-stranded form. Two third of the replication product is ligatable to covalently closed circular DNA (RFIV-form DNA) indicating that DNA synthesis by HIV reverse transcriptase can proceed until the enzyme matches the 5'-end of a pre-existing primer molecule. The in vitro accuracy of HIV reverse transcriptase was measured with the phi X174am16 reversion assay to be 1/7,400. Reversion rates for the individual mispairs were determined from pool bias studies to be 1/8,000 for the dGMP:T template mismatch, 1/35,000 for the dGMP:A template mismatch, 1/45,000 for the dAMP:G template mismatch, 1/73,000 for the dCMP:T template mispair, 1/140,000 for the dCMP:A template mispair, and 1/180,000 for the dGMP:G template mismatch. The dTMP:T template mispair was below the detection limit of the assay indicating a reversion rate of less than 1/300,000 for this particular mispair.
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PMID:Fidelity of human immunodeficiency virus type I reverse transcriptase in copying natural DNA. 246 38


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