EC:2.7.7.49 - FACTA Search

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 eel long interspersed element (LINE) UnaL2 and its partner short interspersed element (SINE) share a conserved 3' tail containing a stem-loop that is critical for their retrotransposition. Presumably, the first step of retrotransposition is the recognition of their 3' tails by UnaL2-encoded reverse transcriptase. The solution structure of a 17-nucleotide RNA derived from the 3' tail of UnaL2 was determined by NMR. The GGAUA loop forms a specific structure in which the uridine is exposed to solvent with the third and fifth adenosines stacked. A sharp turn in the phosphodiester backbone occurs between the second guanosine and third adenosine. When the uridine is mutated (but not deleted), all mutants form the loop structure, indicating that the loop structure requires an exposed fourth residue. The retrotransposition assay in HeLa cells revealed that retrotransposition requires the second guanosine, although any nucleoside functions at the fourth position, suggesting that UnaL2 reverse transcriptase specifically recognizes the 5' side of the GGANA loop.
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PMID:Solution structure of an RNA stem-loop derived from the 3' conserved region of eel LINE UnaL2. 1527 27

Three alkaloids, lycorine, homolycorine and 2- O-acetyllycorine, were isolated from the bulbs of Leucojum vernum (Amaryllidaceae) and identified by means of NMR analysis. The alkaloids obtained from L. vernum and from other Amaryllidaceae species were studied in vitro for HIV-1 replication inhibitory activity on MT4 cells. The cytotoxicity of the compounds in uninfected cells was evaluated by using the MTT assay and the [ (3)H]thymidine incorporation test. The antiviral activities were determined by means of the p24 antigen assay and solid-phase reverse transcriptase testing. The results demonstrate that trisphaeridine, lycorine, homolycorine, and haemanthamine possess high antiretroviral activities (IC (50) = 0.4 - 7.3 microg/mL), accompanied by low therapeutic indices (TI (50) = 1.3 - 1.9).
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PMID:Alkaloids from Leucojum vernum and antiretroviral activity of Amaryllidaceae alkaloids. 1538 96

Specimens of Dictyota pfaffii from Atol das Rocas, Northeast Brazil, afforded the rare dolabellane diterpene 10,18-diacetoxy-8-hydroxy-2, 6-dolabelladiene (1) and the new 10-acetoxy-8,18-di-hydroxy-2,6-dolabelladiene (2). Reduction of 1 yielded 8,10,18-trihydroxy-2,6-dolabelladiene (3), also present in the crude ex-tract of D. pfaffii. All three structures were assigned by 1D and 2D NMR spectral data. These substances showed strong anti-HSV-1 activity in vitro but only 3 inhibited the reverse transcriptase enzyme of HIV-1.
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PMID:In vitro antiviral diterpenes from the Brazilian brown alga Dictyota pfaffii. 1550 55

Jerdostatin represents a novel RTS-containing short disintegrin cloned by reverse transcriptase-PCR from the venom gland mRNA of the Chinese Jerdons pit viper Trimeresurus jerdonii. The jerdostatins precursor cDNA contained a 333-bp open reading frame encoding a signal peptide, a pre-peptide, and a 43-amino acid disintegrin domain, whose amino acid sequence displayed 80% identity with that of the KTS-disintegrins obtustatin and viperistatin. The jerdostatin cDNA structure represents the first complete open reading frame of a short disintegrin and points to the emergence of jerdostatin from a short-coding gene. The different residues between jerdostatin and obtustatin/viperistatin are segregated within the integrin-recognition loop and the C-terminal tail. Native jerdostatin (r-jerdostatin-R21) and a R21K mutant (r-jerdostatin-K21) were produced in Escherichia coli. In each case, two conformers were isolated. One-dimensional (1)H NMR showed that conformers 1 and 2 of r-jerdostatin-R21 represent, respectively, well folded and unfolded proteins. The two conformers of the wild-type and the R21K mutant inhibited the adhesion of alpha(1)-K562 cells to collagen IV with IC(50) values of 180 and 703 nm, respectively. The IC(50) values of conformers 2 of r-jerdostatin-R21 and r-jerdostatin-K21 were, respectively, 5.95 and 12.5 microm. Neither r-jerdostatin-R21 nor r-jerdostatin-K21 showed inhibitory activity toward other integrins, including alpha(IIb)beta(3), alpha(v)beta(3), alpha(2)beta(1), alpha(5)beta(1), alpha(4)beta(1), alpha(6)beta(1), and alpha(9)beta(1) up to a concentration of 24 mum. Although the RTS motif appears to be more potent than KTS inhibiting the alpha(1)beta(1) integrin, r-jerdostatin-R21 is less active than the KTS-disintegrins, strongly suggesting that substitutions outside the integrin-binding motif and/or C-terminal proteolytic processing are responsible for the decreased inhibitory activity.
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PMID:cDNA cloning and functional expression of jerdostatin, a novel RTS-disintegrin from Trimeresurus jerdonii and a specific antagonist of the alpha1beta1 integrin. 1621 60

We have combined nucleoside analog interference with chemical footprinting, thermal denaturation, NMR spectroscopy, and biochemical studies to understand recognition of the polypurine tract (PPT) primer of the Saccharomyces cerevisiae long terminal repeat-containing retrotransposon Ty3 by its cognate reverse transcriptase. Locked nucleic acid analogs, which constrain sugar ring geometry, were introduced pairwise throughout the PPT (-)-DNA template, whereas abasic tetrahydrofuran linkages, which lack the nucleobase but preserve the sugar phosphate backbone, were introduced throughout the (-)-strand DNA template and (+)-strand RNA primer. Collectively, our data suggest that both the 5'- and 3'-portions of the PPT-containing RNA/DNA hybrid are sensitive to nucleoside analog substitution, whereas the intervening region can be modified without altering cleavage specificity. These two regions most likely correspond to portions of the PPT that make close contact with the Ty3 reverse transcriptase thumb subdomain and RNase H catalytic center, respectively. Achieving a similar phenotype with nucleoside analogs that have different effects on duplex geometry reveals structural features that are important mediators of Ty3 PPT recognition. Finally, the results from introducing tetrahydrofuran lesions around the scissile PPT/unique 3'-sequence junction indicate that template nucleobase -1 is dispensable for catalysis, whereas a primer nucleobase on either side of the junction is necessary.
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PMID:Examining Ty3 polypurine tract structure and function by nucleoside analog interference. 1630 41

Plant O-methyltransferases (OMTs) are known to be involved in methylation of plant secondary metabolites, especially phenylpropanoid and flavonoid compounds. An OMT, ROMT-9, was cloned and characterized from rice using a reverse transcriptase polymerase chain reaction (RT-PCR). The blast results for ROMT-9 showed a 73% identity with caffeic acid OMTs from maize and Triticum aestivum. ROMT-9 was expressed in Escherichia coli and its recombinant protein was purified using affinity chromatography. It was then tested for its ability to transfer the methyl group of S-adenosyl-l-methionine to the flavonoid substrates, eriodictyol, luteolin, quercetin, and taxifolin, all of which have a 3'-hydroxyl functional group. The reaction products were analyzed using TLC, HPLC, HPLC/MS, and NMR spectroscopy. The NMR analysis showed that ROMT-9 transferred the methyl group specifically to the 3'-hydroxyl group of quercetin, resulting in the formation of its methoxy derivative. Furthermore, ROMT-9 converted flavonoids containing the 3'-hydroxy functional group such as eriodictyol, luteolin, quercetin and taxifolin into the corresponding methoxy derivatives, suggesting that ROMT-9 is an OMT with strict specificity for the 3'-hydroxy group of flavonoids.
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PMID:Flavonoid 3'-O-methyltransferase from rice: cDNA cloning, characterization and functional expression. 1641 85

Almost all viruses have polymerases which are suitable targets for antiviral drugs. The development of selective polymerase inhibitors started with screening of compounds in virus-infected cell cultures and the mechanism of action was investigated once an inhibitor had been found. Especially nucleoside analogs were screened as their triphosphates were potential substrates for polymerases. However, the stepwise phosphorylation by cellular, and sometimes viral, kinases to the active triphosphate prevented a truly rational design of polymerase inhibitors. Nucleotide analogs offers a type of compounds which could be designed in a more rational way than nucleoside analogs since the first, most selective, phosphorylation step is eliminated in the path to the active inhibitor. The development of pyrophosphate analogs made rational design possible since these compounds act directly on the viral enzyme, but the room for structural variation was limited. The non-nucleoside HIV reverse transcriptase inhibitors are direct inhibitors and can thus be designed in a truly rational way by use of structure information on the enzyme-inhibitor complex by use of X-ray and NMR. This rational design of allosteric inhibitors is also being used in the development of inhibitors to other viral polymerases.
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PMID:Rational design of polymerase inhibitors as antiviral drugs. 1682 Feb 25

Oligonucleotide-based agents are emerging as potential therapeutic agents that can be attractive alternatives for the small-molecule chemical drugs. Monothiophosphate-backbone-modified DNA aptamers (thioaptamers) that specifically and tightly bind to the RNase H domain of the HIV RT (reverse transcriptase) have been isolated from nucleic acid libraries using combinatorial selection methods. The selected thioaptamer inhibited RNase H activity of the HIV RT in in vitro studies. In cell cultures, the transfected thioaptamer markedly reduced HIV production in a dose-dependent manner. Gel electrophoretic mobility-shift assays and NMR spectroscopy showed that the selected thioaptamer binds to the isolated RNase H domain, but did not bind to a structurally similar RNase H from Escherichia coli. In cell cultures, the transfected thioaptamer showed a dose-dependent inhibition of HIV replication, with a maximal inhibition of 83%. Using various liposome-delivery agents, the DNA thioaptamer was transfected into HIV-infected astrocytoma adherent cells with greater than 70% efficiency.
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PMID:Combinatorial selection and delivery of thioaptamers. 1723 99

Current antiviral strategies against HIV rely on structure-function analysis of HIV reverse transcriptase (RT) and protease (PR). The third viral pol gene product, HIV integrase (IN), is also a good target for drug discovery, since IN is essential for retroviral replication and, moreover, it has no obvious functional analogue in the host. IN forms a ternary complex with metal ions and DNA and has a mechanism of catalysis common with other polynucleotidyl transferases. Although there is no structural information for full-length IN available, structures of all three functional IN domains have been determined by X-ray crystallography and NMR spectroscopy. The N-terminal domain has a novel zinc-binding fold, the catalytic domain shares a common structural motif with other polynucleotidyl transferases, and the C-terminal DNA-binding domain has a Src-homology-3-like fold. This structural information provides the basis for drug development. In turn, increasing numbers of IN inhibitors identified so far may serve structure-function analysis of IN. The final goal is the development of new classes of anti-HIV drugs, which can be added to the repertoire of anti-RT and anti-PR drugs.
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PMID:HIV integrase: a target for drug discovery. 1736

HIV-1 reverse transcriptase uses the host tRNA3(Lys) as a primer for the synthesis of the minus DNA strand. The first event in viral replication is thus the annealing of tRNA to the primer binding site (PBS) in the 5' UTR of the viral RNA. This event requires a major RNA rearrangement which is chaperoned by the viral NC protein. The binding of NC to nucleic acids is essentially non-specific, however, NC is known to bind selectively to hairpins located in the 5' region of the viral RNA. In a previous study, using an NMR approach in which the reaction is slowed down by controlling temperature, we were able to follow details in this RNA unfolding/refolding process and to uncover an intermediate state. We showed that annealing initiates at the junction between the acceptor and the TPsiC stems, and that, at physiological temperature, complete annealing is reached only in the presence of NC, probably when the zinc fingers contact the TPsiC/D loops. In the present work, we have refined our model of the formation of the tRNA3(Lys)/PBS duplex. First, we show that annealing can initiate both from the single-stranded CCA 3'-end bases of the acceptor stem and from the bases in the TPsiC stem. Secondly, by NMR and fluorescence spectroscopy, we have studied the complex between the NC protein and RNA hairpins that mimic the D and T arms of the tRNA3(Lys). Interestingly, the NC protein shows strong and specific binding to the D arm of tRNA3(Lys), which could explain the overall annealing mechanism.
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PMID:New insights into the formation of HIV-1 reverse transcription initiation complex. 1738 90

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