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 human immunodeficiency virus 1 (HIV-1) reverse transcriptase (RT) is a protein of 66 kDa, p66, which contains two domains, an amino-terminal DNA polymerase and an RNase H at the carboxy terminus of the molecule. In order to characterize the mode of action of the RNase H, two previously described mutant enzymes were used, with substitutions in the highly conserved histidine 539, which was mutated to the neutral amino acid asparagine and to the negatively charged aspartate. The purified wild-type (wt) and mutant (mt) enzyme activities are analyzed here using RNA-DNA hybrids consisting of in vitro transcribed RNA that harbors the polypurine tract (PPT) from HIV-1 and DNA oligonucleotides complementary to the PPT or to other regions of the RNA. Analysis of the radioactively labeled RNA of these model hybrids after RNase H treatment indicates that both, wt and mt enzymes, are capable of cleaving the RNA in an endonucleolytic manner. The mt enzymes exhibit a severely reduced exonuclease activity. They are more sensitive towards salt and competition with excess of unlabeled hybrid, suggesting a reduced substrate binding affinity. DNA elongation by the RT is coupled with RNA hydrolysis by the 3'-5' exonuclease of the wt RNase H. The RNase Hmt of the mt enzymes, however, does not exhibit such processive 3'-5' exonuclease activity during DNA synthesis but gives rise to sporadic endonucleolytic cuts, whereas the RT is not affected. The endonuclease activities of the RNase H mt enzymes exhibit cleavage preferences in the absence or presence of DNA synthesis different from those of the wt enzyme. They cannot recognize specific sequences required to generate a PPT-primer and therefore cannot initiate plus-strand DNA synthesis in vitro at the 3' end of the PPT, which is essential for viral replication.
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PMID:Mutations of a conserved residue within HIV-1 ribonuclease H affect its exo- and endonuclease activities. 171 5

Properties of primer recognition by purified human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) p66 homodimer have been investigated. Earlier studies had shown that RNA-directed DNA synthesis catalyzed by HIV-1 RT proceeds by an ordered mechanism in which template-primer combines with the free enzyme to form the first complex in the reaction scheme, and it was also shown that primer alone is a competitive inhibitor of template-primer. In this study, enzyme-primer binding has been further characterized utilizing pd(T)8 and pd(T)16 as model primers and UV cross-linking to covalently trap the enzyme-primer complexes. Competition experiments with several authentic primers, including tRNA(3Lys), indicate that pd(T)n binds to the kinetically significant primer binding site of RT. Salt reversal experiments suggested that the free energy of pd(T)n binding to RT has a large nonelectrostatic component. Binding of pd(T)n to p66-RT is not affected by dNTPs and does not require the presence of template. The site of UV cross-linking of pd(T)16 was localized to the NH2-terminal half of p66 by use of V8 protease hydrolysis and microsequencing. Our results indicate that a polynucleotide binding site is in close proximity to residues in the peptide comprising amino acids 195 approximately 300. This region could be either a single-stranded template or single-stranded primer binding site; however, we have documented the specificity of binding with oligonucleotides that act as primer in the in vitro DNA synthesis reaction. Therefore, this d(T)16 binding site may be part of a primer-binding groove within the HIV-1 reverse transcriptase.
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PMID:Localization of a polynucleotide binding region in the HIV-1 reverse transcriptase: implications for primer binding. 171 24

We have purified and determined functional parameters of reconstituted, recombinant HIV-1 reverse transcriptase (RT) heterodimers within which either the p66 or p51 polypeptide was selectively mutated in one or both aspartic acid residues constituting the proposed polymerase active site (-Y-M-D-D-). Heterodimers containing a mutated p51 polypeptide retain almost wild type levels of both RNA-dependent DNA polymerase and ribonuclease H (RNaseH) activity. In contrast, heterodimers whose p66 polypeptide was likewise mutated exhibit wild type RNaseH activity but are deficient in RNA-dependent DNA polymerase activity. These results indicate that in heterodimer RT, the p51 component cannot compensate for active site mutations eliminating the activity of p66, indirectly implying that solely the p66 aspartic acid residues of heterodimer are crucial for catalysis.
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PMID:Subunit-selective mutagenesis indicates minimal polymerase activity in heterodimer-associated p51 HIV-1 reverse transcriptase. 171 45

Metal chelate affinity chromatography has been used to follow reconstitution of the 66- and 51-kDa human immunodeficiency (HIV)-1 and HIV-2 reverse transcriptase (RT) subunits into heterodimer, as well as chimeric enzymes comprised of heterologous subunits. By adding a small N-terminal polyhistidine extension to the 51-kDa subunit of either enzyme, reconstituted RT could be recovered from a cell lysate by chromatography on Ni(2+)-nitrilotriacetic acid-Sepharose. Homologous RT subunits rapidly associated to form the respective heterodimers (1-p66.1-p51 and 2-p66.2-p51) when bacterial lysates containing the individual components were mixed. Under the same conditions, association of p66 HIV-2 and p51 HIV-1 RT was inefficient and could be improved slightly by prolonged incubation of the respective p66 and p51 subunits. In contrast, HIV-1 p66 RT rapidly associated with the 51-kDa subunit of the HIV-2 enzyme. RNA-dependent DNA polymerase activity was associated with all reconstituted enzymes, and the response of each chimeric RT to an inhibitor selective for the HIV-1 enzyme indicated that sensitivity to inhibition was determined by the source of its 66-kDa subunit.
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PMID:Reconstitution and properties of homologous and chimeric HIV-1.HIV-2 p66.p51 reverse transcriptase. 172 Jul 76

Psychotrine dihydrogen oxalate and O-methylpsychotrine sulfate heptahydrate (MP), the salts of isoquinoline alkaloids from ipecac, were found to be potent inhibitors of the DNA polymerase activity of human immunodeficiency virus-1 reverse transcriptase (HIV-1 RT). We currently report the results of additional studies designed to characterize the mechanism of inhibition facilitated by MP. The inhibition was noncompetitive with respect to TTP and uncompetitive with respect to poly(rA) and oligo(dT)12-18 (4:1) at low template-primer concentrations but competitive at high concentrations (greater than 200 microM). Identical non-Michaelis-type kinetics were observed when activated DNA was used as the template. The biphasic nature of the double-reciprocal plots and Hill coefficients of less than 1 indicate that MP functions as an allosteric inhibitor of the enzyme which appears to possess multiple active sites that interact in a cooperative (negative) fashion in the presence of the inhibitor. MP was selective for the recombinant HIV-1 RT (p66) utilizing poly(rA) and oligo(dT)12-18 (4:1) as template-primer. Greater inhibition was observed with this template primer as compared with other natural and synthetic template-primers tested. MP had significantly less effect on avian myeloblastosis virus RT as well as mammalian or bacterial DNA and RNA polymerases. Other members of the ipecac class of alkaloids, e.g. emetine hydrochloride, were inactive against all of these enzymes, including HIV-1 RT. Conversely, MP did not inhibit in vitro protein synthesis, a property manifested by all the other ipecac alkaloids tested. Studies conducted with structural analogs revealed that the imine functionality at positions 1' and 2' of MP is the key structural requirement for HIV-1 RT inhibitory activity. Therefore, MP appears to possess unique structural properties that enable interaction with HIV-1 RT in a manner that can be differentiated from other polymerases. Use of these alkaloids for the definition of this viral enzyme-specific topology may lead to the development of therapeutically useful chemotherapeutic agents.
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PMID:Psychotrine and its O-methyl ether are selective inhibitors of human immunodeficiency virus-1 reverse transcriptase. 172 Oct 50

Human immunodeficiency virus 1 reverse transcriptase (RT) purified from virions is composed of a approximately 51,000 Mr polypeptide and a approximately 66,000 Mr polypeptide that are thought to be in heterodimer structure (Chandra et al., 1986; Hansen et al., 1988; Starnes & Cheng, 1989) and are identical except for a 15,000 Mr C-terminal truncation in the smaller species (Di Marzo-Veronese et al., 1986). We prepared individual bacterial-recombinant RTs as the approximately 66,000 Mr polypeptide (p66) or as the approximately 51,000 Mr polypeptide (p51) and then conducted various in vitro protein-protein binding experiments. Analytical ultracentrifugation studies in 0.25 M NaCl at pH 6.5 revealed that p66 was in monomer-dimer equilibrium with KA of 5.1 x 10(4) M-1. p51 failed to dimerize and behaved as a monomer under these conditions. Mixing of the p66 and p51 polypeptides resulted in a 1:1 heterodimer with KA of 4.9 x 10(5) M-1. These results on formation of the p66/p66 homodimer and p66/p51 heterodimer were confirmed by gel filtration analysis using FPLC Superose-12 columns. Binding between p66 and individual p66 segment polypeptides also was observed using an immunoprecipitation assay. Binding between p51 and p66 in this assay was resistant to the presence of approximately 1 M NaCl, suggesting that the binding free energy has a large hydrophobic component. C-Terminal truncation of p66 to yield a 29-kDa polypeptide eliminated binding to p66, and N-terminal truncation of p66 to yield a 15-kDa peptide also eliminated binding to p66. The results indicate that purified individual RT peptides p51 and p66 are capable of binding to form a 1:1 heterodimer and suggest that the central region of p66 is required for this subunit binding; the C-terminal region (15,000 Mr) of p66 appears to be required also, as p51 alone did not dimerize.
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PMID:Protein-protein interactions of HIV-1 reverse transcriptase: implication of central and C-terminal regions in subunit binding. 172 35

Segments of the human immunodeficiency virus (HIV) type 1 gag and pol genes and mutants thereof were transiently expressed in mammalian cells. Expression was dependent on the presence of the rev responsive element in cis and the rev protein in trans and was readily detected by indirect immunofluorescence or Western blotting. Transfection of constructs encoding the entire gag and pol open reading frames yielded efficient release of particles banding at a density of 1.16 g of sucrose per milliliter and consisting mainly of processed gag proteins. In addition, these particles contained the p66/p51 heterodimer of reverse transcriptase (RT), had associated RT activity, and contained RNA. Electron micrographs revealed immature retrovirus-like particles budding primarily from the plasma membrane and extracellular particles with morphological characteristics of HIV. Particle production was independent of the pol open reading frame or an active HIV proteinase (PR) but without active PR, cell-associated and particle-associated proteins remained completely uncleaved and budding occurred primarily into intracellular vacuoles. A mutation preventing myristoylation of the viral polyproteins abolished particle release but did not interfere with polyprotein synthesis and did not prevent processing. Expression of gag and PR in the same reading frame yielded complete processing of polyproteins but no budding and led to increased cell toxicity. A mutation of the PR active site in this construct prevented cytotoxicity and restored particle release indicating that the observed phenotype was caused by the overexpression of PR. These particles were aberrant in size and morphology when analyzed on sucrose density gradients and by electron microscopy. Budding was arrested at an early stage and extracellular particles appeared to be released by a different mechanism. Only short C-terminal extensions were compatible with this release mechanism since expression of a similar mutant construct encoding the entire gag-pol open reading frame did not yield particles.
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PMID:Analysis of HIV particle formation using transient expression of subviral constructs in mammalian cells. 172 1

Passive immunity is conferred to the fetus by maternal antibodies, the majority of which are transported across the placenta during the third trimester of pregnancy. To determine the placental transport of anti-HIV-1 antibodies, serum from 5 women infected with human immunodeficiency virus (HIV) and their abortuses were examined for anti-HIV-1 antibodies. The gestational age of the abortuses ranged from 18 to 24 weeks and following polymerase chain reaction amplification, HIV-1 gag DNA was detected in tissue from 2 of the abortuses. The concentration of total IgG antibodies present in cord blood ranged from 2.9% to 12.5% of maternal levels. Antibodies directed against the envelope proteins, gp160 and gp120, the reverse transcriptase protein, p66, and the capsular protein, p24, were present in fetal and maternal serum. Although IgG1 was the predominant subclass antibody generated in response to HIV-1 proteins, IgG2, IgG3, and IgG4 directed against HIV-1 proteins were also detected. There were large differences in the antigens recognized by the antibodies produced in the mothers, and the IgG subclasses of the antibodies produced. HIV-1 proteins recognized by antibodies present in cord blood were similar to those recognized by paired maternal serum and IgG1, IgG2, IgG3 recognizing HIV-1 proteins were detected in fetal serum. However, there was a dichotomy in placental transport of IgG subclass antibodies to HIV-1 proteins. The role of these antibodies in prevention of vertical transmission of HIV-1 has yet to be determined.
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PMID:Characterization of IgG and IgG subclass antibodies present in paired maternal and fetal serum which are directed against HIV-1 proteins. 174 77

Simian immunodeficiency virus protease (SIV-PR) was produced in Escherichia coli with a recombinant expression system in which the mature enzyme autoprocessed from a precursor form. Recombinant SIV and HIV-1 (human immunodeficiency virus, type 1) proteases were purified from bacterial cell lysates by use of sequential steps of ammonium sulfate precipitation and size-exclusion and ion-exchange chromatography. The amino acid composition, amino-terminal sequence, and molecular weight (monomer) of the recombinant SIV-PR were in accord with that of the 99 amino acid polypeptide predicted from the SIVMac-PR nucleotide sequence. The active form of SIV-PR was shown to be dimeric by gel filtration chromatography. Inhibition by pepstatin A, time-dependent inactivation by 1,2-epoxy-3-(4-nitrophenoxy)propane, and pH rate profiles using oligopeptide substrates demonstrated that SIV-PR behaves as an aspartic protease. Recombinant HIV-1 Pr55gag precursor was processed in vitro by SIV-PR and HIV-1 PR with indistinguishable proteolytic patterns upon NaDodSO4-polyacrylamide gel electrophoresis. Oligopeptide substrates for HIV-1 PR were found to be suitable substrates for recombinant SIV-PR with the exception of a peptide containing the site identified for p66/p51 cleavage (Phe*Tyr) within HIV-1 reverse transcriptase (RT). Several synthetic peptide analogue inhibitors of HIV-1 PR were also potent inhibitors of SIV-PR, indicating that SIV infection in macaques and rhesus monkeys should be useful models for the preclinical evaluation of acquired immunodeficiency syndrome (AIDS) therapeutics targeted towards the virally encoded HIV-1 protease.
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PMID:Purification and biochemical characterization of recombinant simian immunodeficiency virus protease and comparison to human immunodeficiency virus type 1 protease. 188 29

Mutations were introduced into the P2 and P1 positions of the junctions, (a) linking reverse transcriptase (RT) and integrase (IN) (-Leu*Phe-) and (b) between the p51 and RNase H domain (-Phe*Tyr-) within p66 of RT in the HIV-1 pol polyprotein. Processing by HIV proteinase (PR) in cis was monitored upon expression of these constructs in E. coli. Whereas the presence of Leu or Phe in P1 permitted rapid cleavage at either junction, substitution of a beta-branched (Ile) hydrophobic residue essentially abolished hydrolysis. By contrast, placement of a beta-branched (Val) residue in the P2 position flanking such -Hydrophobic*Hydrophobic- junctions resulted in effective cleavage of the scissile peptide bond. Gly in P2, however, abrogated cleavage. The significance of these findings in terms of PR specificity, polyprotein processing and the generation of homodimeric (p51/p51) RT for crystallisation purposes is discussed.
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PMID:Mutating P2 and P1 residues at cleavage junctions in the HIV-1 pol polyprotein. Effects on hydrolysis by HIV-1 proteinase. 204 56


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