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)

Studies are described on the interrelationships between divalent metals, dNTP's and PPi in determining the properties of complementary DNA (cDNA) product from the in vitro reverse transcriptase reaction with detergent-treated Moloney murine leukemia virus. In spite of the several-fold greater amount of cDNA product with Mn2+ than with Mg2+, net yield of high-molecular-weight cDNA was much greater with Mg2+ thant with Mn2+. This held true, as well, for the reactions containing excess dNTP or dNTP plus PPi, both of which (as has been reported for Mg2+) promote synthesis of high-molecular-weight cDNA product. Hif total dNTP concentration remained important for maximum high-molecular-weight product with Mg2+ and was not replaced by simply providing dNTP in excess over Mg2+. Under the conditions tested here, addition of PPi did not further increase cDNA product size with Mg2+ when compared with dNTP in excess over Mg2+. Extent of degradation of the RNA template during the incubations was correlated with the size of cDNA product.
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PMID:Optimal conditions for synthesis of long complementary DNA product with Moloney murine leukemia virus. 9 Jan 69

Human immunodeficiency virus type 1 (HIV-1)-specific pyridinone reverse transcriptase (RT) inhibitors prevent HIV-1 replication in cell culture (M. E. Goldman, J. H. Nunberg, J. A. O'Brien, J.C. Quintero, W. A. Schleif, K. F. Freund, S. L. Gaul, W. S. Saari, J. S. Wai, J. M. Hoffman, P. S. Anderson, D. J. Hupe, E. A. Emini, and A. M. Stern, Proc. Natl. Acad. Sci. USA 88:6863-6867, 1991). In contrast to nucleoside analog inhibitors, such as AZT, which need to be converted to triphosphates by host cells, these compounds act directly to inhibit RT via a mechanism which is noncompetitive with respect to deoxynucleoside triphosphates. As one approach to define the mechanism of action of pyridinone inhibitors, we isolated resistant mutants of HIV-1 in cell culture. Serial passage in the presence of inhibitor yielded virus which was 1,000-fold resistant to compounds of this class. Bacterially expressed RTs molecularly cloned from resistant viruses were also resistant. The resistant RT genes encoded two amino acid changes, K-103 to N and Y-181 to C, each of which contributed partial resistance. The mutation at amino acid 181 lies adjacent to the conserved YG/MDD motif found in most DNA and RNA polymerases. The mutation at amino acid 103 lies within a region of RT which may be involved in PPi binding. The resistant viruses, although sensitive to nucleoside analogs, were cross-resistant to the structurally unrelated RT inhibitors TIBO R82150 (R. Pauwels, K. Andries, J. Desmyter, D. Schols, M. J. Kukla, H. J. Breslin, A. Raeymaeckers, J. Van Gelder, R. Woestenborghs, J. Heykanti, K. Schellekens, M. A. C. Janssen, E. De Clercq, and P. A. J. Janssen, Nature [London] 343:470-474, 1990) and BI-RG-587 (V. J. Merluzzi, K. D. Hargrave, M. Labadia, K. Grozinger, M. Skoog, J. C. Wu, C.-K. Shih, K. Eckner, S. Hattox, J. Adams, A. S. Rosenthal, R. Faanes, R. J. Eckner, R. A. Koup, and J. L. Sullivan, Science 250:1411-1413, 1990). Thus, these nonnucleoside analog inhibitors may share a common binding site on RT and may all make up a single pharmacologic class of RT inhibitor. This observation may have important implications for the clinical development of these compounds.
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PMID:Viral resistance to human immunodeficiency virus type 1-specific pyridinone reverse transcriptase inhibitors. 171 22

Phosphonoformate (PFA) is a simple PPi analog which inhibits the activities of a variety of viral DNA polymerase, RNA polymerase, and reverse transcriptase enzymes. PFA is a topical and parenteral treatment for human herpesvirus infections and is currently in phase I trials for treatment of acquired immunodeficiency syndrome. Pharmacokinetic properties of PFA in young (growing) and adult specific-pathogen-free cats were compared. Mean PFA clearance from plasma was twofold higher in young cats (7.52 ml/min per kg of body weight) than in adult cats (3.70 ml/min per kg). Higher PFA clearance from plasma observed in young cats may result from higher renal clearance or enhanced accumulation of PFA in bone tissue of young versus adult cats. No plasma protein binding of PFA was observed. Mean oral bioavailability was 35% in young cats. These data indicate that age-related differences in PFA clearance from plasma occur in cats.
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PMID:Age-related differences in pharmacokinetics of phosphonoformate in cats. 214 79

Twenty-six PPi analogs were tested for inhibitory effects on human T-lymphotropic virus type III reverse transcriptase. The structural requirements for inhibition and mechanism of action of the most active inhibitors have been investigated. Foscarnet (phosphonoformic acid) was the most potent inhibitor of human T-lymphotropic virus type III reverse transcriptase with 50% inhibition at 0.5 microM. The mechanism was a noncompetitive type of inhibition of a (riboadenylic acid)n . (deoxythymidylic acid)12-18 [(rA)n(dT)12-18]-directed transcription at varied dTTP concentration. At constant substrate (dTTP) concentration and varied amounts of template, (rA)n(dT)12-18, the inhibitory action of foscarnet was of an uncompetitive type. The same pattern of inhibition was seen when the less active inhibitor carbonyldiphosphonate was studied under identical conditions. The structural requirements for inhibition of human T-lymphotropic virus type III reverse transcriptase by PPi analogs were similar to those shown by other reverse transcriptases.
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PMID:PPi analogs as inhibitors of human T-lymphotropic virus type III reverse transcriptase. 242 31

The DNA polymerase of hepadnaviruses has two different functions during virus replication. It acts both as an RNA-dependent DNA polymerase (reverse transcriptase) and as a DNA-dependent DNA polymerase. Duck hepatitis B virus (DHBV) preparations were used to investigate the inhibitory effects of selected compounds on these two enzyme activities. The reverse transcriptase activity was represented by an actinomycin D-resistant, phosphonoformate-sensitive DNA polymerase activity isolated from DHBV-infected duck livers. DHBV from serum was used as the source of the DNA-dependent DNA polymerase activity. Pyrophosphate and nucleoside triphosphate analogs were assayed for their inhibitory effects on the two enzyme preparations. A marked inhibition was obtained with 3'-fluoro-2',3'-dideoxythymidine 5'-triphosphate, acyclovir triphosphate, 2',3'-dideoxythymidine 5'-triphosphate, 2',3'-dideoxyguanosine 5'-triphosphate and 2',3'-dideoxythymidine 5'-triphosphate. The two thymidine analog triphosphates showed a markedly lower inhibitory effect on the reverse transcriptase activity than on the DNA-dependent DNA polymerase activity. This was in analogy with earlier findings with 3'-azido-2',3'-dideoxythymidine 5'-triphosphate. Among the tested pyrophosphate analogs only phosphonoformate was inhibitory.
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PMID:Inhibition of RNA- and DNA-dependent duck hepatitis B virus DNA polymerase activity by nucleoside and pyrophosphate analogs. 248 79

The reaction of pyrophosphorolysis catalyzed by Escherichia coli DNA polymerase I Klenov fragment, calf thymus DNA polymerase alpha, rat liver DNA polymerase beta and AMV reverse transcriptase was studied. Some pyrophosphate (PPi) analogs were taken as low molecular weight substrates. It was shown that only imidodiphosphonic acid acted as the PPi substrate analog for the reactions catalyzed by DNA polymerases I and alpha, both imidodiphosphonic acid and methylenediphosphonic acid were active in the case of DNA polymerase beta and reverse transcriptase. Other analogs tested were neither nucleotide residue acceptors, nor inhibitors of the pyrophosphorolysis reaction with PPi. The abilities of some PPi analogs to inhibit the DNA elongation catalyzed by reverse transcriptase were investigated. The principles of specificity of low molecular substrates recognition by DNA polymerases and some problems concerning the mechanisms of DNA synthesis inhibition by PPi analogues are discussed.
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PMID:[Analogs of pyrophosphate in a pyrophosphorolysis reaction catalyzed by DNA polymerases]. 254 2

In order to determine the catalytic role of Arg72 of HIV-1 reverse transcriptase (RT), we carried out site-directed mutagenesis at codon 72. Two mutant proteins (R72A and R72K) were purified and characterized. With Arg to Ala substitution the kcat of the polymerase reaction was reduced by nearly 100-fold with poly(rA) template, but only about 5-15-fold with poly(rC) and poly(dC) templates. The Arg to Lys substitution exhibited a qualitatively similar pattern, although the overall reduction in kcat was less severe. Most interestingly, we noted a large difference in the rate constant of the first and second nucleotide incorporation by R72A, suggesting that Arg72 participates in the reaction after the formation of the first phosphodiester bond. We propose this step to be the pyrophosphate binding and removal step following the nucleotidyltransferase reaction. Support for this proposal is obtained from the observation that the R72A mutant (i) exhibited a pronounced translocation defect in the processivity analysis, (ii) lacked the ability to catalyze pyrophosphorolysis, and (iii) showed complete resistance to phosphonoformate, an analog of PPi.Arg72 is the first residue of HIV-1 RT proposed to be involved in the pyrophosphate binding/removal function of RT.
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PMID:Site-directed mutagenesis of arginine 72 of HIV-1 reverse transcriptase. Catalytic role and inhibitor sensitivity. 754 45

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 kinetic pathway of DNA-dependent DNA polymerase activity of human immunodeficiency virus reverse transcriptase (HIV RT) as determined by pre-steady-state methods using a defined primer/template is as follows, [formula: see text] where E is RT, Dn,n+1 is primer/template, dNTP is deoxyribonucleoside triphosphate, and PPi is pyrophosphate. The rate-determining step for enzyme turnover in single nucleotide addition is the dissociation of enzyme from DNA (k6 = 0.11 s-1). The observation of an E'.DNA.dNTP intermediate by pulse-chase analysis and the absence of a phosphorothioate elemental effect identified the rate-limiting step for nucleotide addition as a conformational change of the E.DNA.dNTP complex (k3 = 83 s-1) prior to the chemical step. Biphasic kinetics of single-turnover pyrophosphorolysis suggested that this conformational change (k-3 = 0.3 s-1) is also rate-limiting for the reverse reaction. The equilibrium constant for the chemical step (K4) is 3.8, in slight favor of the forward reaction. The large equilibrium constant (K3 = 280) for the conformational change effectively renders nucleotide addition kinetically irreversible. The dissociation constant for primer/template is 26 nM, and the association rate of enzyme and DNA (k1) is 2.3 x 10(6) M-1 s-1. Equilibrium dissociation constants for dTTP and PPi are 18 microM and 7.2 mM, respectively. Mg2+ enhances productive interaction of RT with DNA as judged by a 50% increase in burst amplitude in the single nucleotide addition reaction and by an 8-fold decrease in KD for the RT.DNA complex as determined by gel mobility shift assay. Secondary interactions of the RT.DNA complex with free DNA were observed in the absence of Mg2+.
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PMID:Kinetic mechanism of the DNA-dependent DNA polymerase activity of human immunodeficiency virus reverse transcriptase. 769 3

In order to clarify the role(s) of the individual member of the carboxylate triad in the catalytic mechanism of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase, we carried out site-directed mutagenesis of D185, D186, and D110, followed by the extensive characterization of the properties of the individual mutant enzymes. We find that all three residues participate at or prior to the chemical step of bond formation. The incorporation pattern seen with phosphorothioate analogs of dNTP on both RNA-DNA and DNA-DNA template-primers indicated that D186 may be the residue that coordinates with the alpha-phosphate group of dNTP in the transition-state ternary complex. Further support for the role assigned to D186 was obtained by examination of the ability of the individual carboxylate mutants to catalyze the reverse of the polymerase reaction (pyrophosphorolysis). Mutants of D185 exhibited near-normal pyrophosphorolysis activity, while those of D186 were completely devoid of this activity. Thus, D185 appears to participate only in the forward reaction, probably required for the generation of nucleophile by interacting with the 3'-OH of the primer terminus, while D186 seems to be involved in both the forward and the reverse reactions, presumably by participating in the pentavalent intermediate transition state. Lack of any elemental effects during polymerization with mutant enzymes of residue D110, together with their inability to catalyze pyrophosphorolysis, suggest its probable participation in the metal-coordinated binding to the beta-gamma-phosphate of dNTP or PPi in the forward and reverse reactions, respectively. A molecular model of the ternary complex based on these results is also presented.
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PMID:Biochemical analysis of catalytically crucial aspartate mutants of human immunodeficiency virus type 1 reverse transcriptase. 879 33

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