EC:2.7.7.48 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several antitumor substances that effectively inhibited the growth of ascites and solid tumor cells transplanted in mice were isolated from pine cone NaOH extract by acid- and ethanol-precipitation. These antitumor substances were also potent antiviral agents against human immunodeficiency virus, herpes simplex virus and influenza virus; they induced antimicrobial activity against Staphylococcal aureus, Escherichia coli, Pseudomonas aeruginosa, Klebsiella pneumoniae and Candida albicans, and induced antiparasite activity against Hymenolepis nana in mice. Chemical analysis of these substances by IR, UV, NMR, ESR and partition chromatography on cellulose-TLC plate disclosed that they had lignin-related structures complexed with sugars or polysaccharides. Chlorinated decomposition of the lignin portion significantly reduced their antiviral activity. In agreement with this, the antiviral activity of synthesized lignins prepared by polymerization of phenylpropanoid precursors was comparable to that of the undecomposed counterparts of the pine cone extract. Acid hydrolysis of the polysaccharide portion significantly reduced the ability of the substances to induce antitumor and antimicrobial activities in mice. With an appropriate eliciting agent, intravenous administration of natural lignified substances transiently induced endogenous production of a cytotoxic factor (possibly tumor necrosis factor) in normal mice. Their priming activity was significantly higher than that of their component units or degradation products. These data suggest the importance of conjugating lignins with polysaccharides for in vivo expression of various kinds of immunopotentiating activity. As possible explanations for their induction of a variety of immunopotentiating activities, these natural and synthetic lignins stimulated macrophage NBT-reducing activity, polymorphonuclear cell (PMN) iodination and splenocyte DNA synthesis and inhibited poly (ADP-ribose) glycohydrolase, RNA-dependent DNA polymerase (reverse transcriptase) and RNA-dependent RNA polymerase activities.
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PMID:Antitumor, antiviral and immunopotentiating activities of pine cone extracts: potential medicinal efficacy of natural and synthetic lignin-related materials (review). 164 35

The structure of a very common RNA hairpin, 5'GGAC(UUCG)GUCC, has been determined in solution by NMR spectroscopy. The loop sequence, UUCG, occurs exceptionally often in ribosomal and other RNAs, and may serve as a nucleation site for RNA folding and as a protein recognition site. Reverse transcriptase cannot read through this loop, although it normally transcribes RNA secondary structure motifs. A hairpin with that loop displays unusually high thermodynamic stability; its stability decreases when conserved nucleotides are mutated. The three-dimensional structure for the hairpin was derived from interproton distances and scalar coupling constants determined by NMR using distance geometry, followed by restrained energy minimization. The structure was well-defined despite the conservative use of interproton distances, by constraining the backbone conformation by means of scalar coupling measurements. A mismatch G.U base pair, with syn-guanosine, closes the stem. This hairpin has a loop of only two nucleotides; both adopt C2'-endo sugar pucker. A sharp turn in the phosphodiester backbone is stabilized by a specific cytosine-phosphate contact, probably a hydrogen bond, and by stacking of the cytosine nucleotide on the G.U base pair. The structural features of the loop can explain the unusual thermodynamic stability of this hairpin and its sensitivity to mutations of loop nucleotides.
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PMID:Structure of an unusually stable RNA hairpin. 170 37

Mono- and bisthiopyrophosphate can inhibit the replication of influenza virus A/X49 in Madin-Darby canine kidney (MDCK) cells at concentrations at which no cytotoxic effect is observed after 3 days. The thiopyrophosphate analogues inhibit the RNA transcriptase activity of this virus possibly by chelating with an essential metal ion in the transcriptase complex. [31P]NMR spectroscopy indicates that bisthiopyrophosphate coordinates to zinc through sulphur and magnesium through oxygen which may influence the inhibitory properties of this compound with metal-containing enzymes.
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PMID:Thio-analogues of inorganic pyrophosphate inhibit the replication of influenza virus A in vitro. 299 Mar 33

(+)-Calanolide A, a novel dipyranocoumarin from the Malesian tree Calophyllum lanigerum var. austrocoriaceum, and a closely related compound, (-)-calanolide B, isolated from Calophyllum teysmannii var. inophylloide, are representatives of a distinct class of nonnucleoside HIV-1 specific reverse-transcriptase inhibitor under development as an AIDS chemotherapeutic. NCI repository specimens totalling 315 organic extracts from 31 taxa of Calophyllum were analyzed for related pyranocoumarins using a simple TLC system. A total of 127 extracts was initially classified as "positive"; eight out of the 31 taxa examined, representing perhaps 28 species already described (1/7-1/8 of all the species in this genus), contained prenylated coumarins, suggesting that these compounds, while sometimes abundantly present, are not widespread in the genus. Representative members of the TLC-positive extracts were partitioned between CH2C12 and 25% aqueous MeOH; the CH2C12-soluble materials were then analyzed by TLC and 1H NMR to confirm the presence of pyranocoumarins. The anti-HIV activity of the partitioned extracts are also presented. This study suggested that there are several distinctive coumarin chemotaxonomic markers distinguishing species of this genus.
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PMID:Pyranocoumarins from tropical species of the genus Calophyllum: a chemotaxonomic study of extracts in the National Cancer Institute collection. 978 62

The 3' end of brome mosaic virus RNA contains a tRNA-like sequence that directs its RNA synthesis. A stem loop structure in this sequence, stem loop C (SLC), was investigated using NMR, and correlated with its ability to direct RNA synthesis by its replicase. SLC consists of two discrete domains, a flexible stem with an internal loop and a rigid stem containing a 5'-AUA-3' triloop. Efficient RNA synthesis requires the sequence on only one side of the flexible stem and a specific compact conformation of the triloop. A high resolution structure of the triloop places the 5' adenine out in solution, and the 3' adenine within the triloop, held tightly through stacking and unusual hydrogen bonds. This high resolution structure of an RNA promoter from a (+)-strand RNA virus provides new insights into how the RNA-dependent RNA polymerase binds to the RNA to initiate synthesis.
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PMID:RNA motifs that determine specificity between a viral replicase and its promoter. 1080 41

The 3'-end region of the genomic RNA of brome mosaic virus forms a tRNA-like structure that is critical for its replication. Previous studies have shown that in this region, a stem-loop structure, called SLC, is necessary and sufficient for the binding of the RNA replicase, and for RNA replication. Recently, we determined the high-resolution NMR structure of SLC, which demonstrated that a 5'-AUA-3' triloop region is an important structural element for the enzymatic recognition. We proposed that the 5'-adenine of the triloop, which is rigidly fixed ("clamped") to the stem, is a key recognition element for the replicase. To elucidate the role of this "clamped base motif" for the enzymatic recognition, we have now investigated the solution conformations of several stem-loop molecules with mutant triloops, 5'-UUA-3', 5'-GUA-3', 5'-CUA-3' and 5'-UUU-3', that destroy the enzymatic recognition. For the GUA and UUA mutants, we have obtained high-resolution solution structures using 2D NMR. All four mutants have very similar thermodynamic stabilities, and all have the same secondary structures, a triloop with a five base-paired stem helix. In addition, they have quite similar sugar puckering patterns in the triloop region. The NMR structures of the GUA and UUA show that the 5' nucleotide of the triloop (G6 in GUA or U6 in UUA) lacks the strong interactions that hold its base in a fixed position. In particular, the U6 of UUA is found in two different conformations. Neither of these two mutants has the clamped base motif that was observed in the wild-type. While UUA also shows global change in the overall triloop conformation, GUA shows a very similar triloop conformation to the wild-type except for the lack of this motif. The absence of the clamped base motif is the only common structural difference between these two mutants and the wild-type. These results clearly indicate that the loss of function of the UUA and GUA mutants comes mainly from the destruction of a small key recognition motif rather than from global changes in their triloop conformations. Based on this study, we conclude that the key structural motif in the triloop recognized by the replicase is a solution-exposed, 5'-adenine base in the triloop that is clamped to the stem helix, which is called a clamped adenine motif.
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PMID:Structural and thermodynamic studies on mutant RNA motifs that impair the specificity between a viral replicase and its promoter. 1127 4

In the Bromoviridae family of plant viruses, trinucleotide hairpin loops play an important role in RNA transcription. Recently, we reported that Brome mosaic virus (BMV) subgenomic (sg) transcription depended on the formation of an unusual triloop hairpin. By native gel electrophoresis, enzymatic structure probing, and NMR spectroscopy it is shown here that in the absence of viral replicase the hexanucleotide loop 5'C1AUAG5A3' of this RNA structure can adopt a pseudo trinucleotide loop conformation by transloop base pairing between C1 and G5. By means of in vitro replication assays using partially purified BMV RNA-dependent RNA polymerase (RdRp) it was found that other base pairs contribute to sg transcription, probably by stabilizing the formation of this pseudo triloop, which is proposed to be the primary element recognized by the viral replicase. The BMV pseudo triloop structure strongly resembles iron-responsive elements (IREs) in cellular messenger RNAs and may represent a general protein-binding motif. In addition, in vitro replication assays showed that the BMV sg hairpin is functionally equivalent to the minus-strand core promoter hairpin stem-loop C at the 3' end of BMV RNAs. Replacement of the sg hairpin by stem-loop C yielded increased sg promoter activity whereas replacement of stem-loop C by the sg hairpin resulted in reduced minus-strand promoter activity. We conclude that AUA triloops represent the common motif in the BMV sg and minus-strand promoters required for recruitment of the viral replicase. Additional sequence elements of the minus-strand promoter are proposed to direct the RdRp to the initiation site at the 3' end of the genomic RNA.
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PMID:The Brome mosaic virus subgenomic promoter hairpin is structurally similar to the iron-responsive element and functionally equivalent to the minus-strand core promoter stem-loop C. 1187 57

The influenza A virus promoter is recognized by the influenza A virus RNA-dependent RNA polymerase, and directs both transcription and replication of the viral RNA genome. Within the sequence of this promoter, flu strains exhibit a natural, unique variation, either a U or a C, at the fourth position from the 3' end. Promoters that contain a C residue (C4 promoter), which are invariably found in genome segments that encode the three RNA polymerase subunits (PB1, PB2 and PA), down-regulate transcription but activate genome replication. Here, we have determined the structure of the C4 promoter by NMR spectroscopy and compared it with the structure of the U4 promoter, which was determined previously. The structure of the internal loop in the C4 promoter is similar to that of the U4 promoter. However, the terminal stem of the C4 promoter is strikingly different from that of the U4 promoter. These structural data suggest that the internal loop is important for polymerase binding to the promoter, and the terminal stem is crucial for differential regulation of transcription and replication.
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PMID:A single-nucleotide natural variation (U4 to C4) in an influenza A virus promoter exhibits a large structural change: implications for differential viral RNA synthesis by RNA-dependent RNA polymerase. 1258 41

Replication of human immunodeficiency virus 1 (HIV-1) uses a viral reverse transcriptase (RT) to convert its positive-strand RNA into double stranded DNA, which is then integrated into host genome. Reverse transcription is a complex event involving p66 and p51 RT subunits but also several viral proteins including Nef, Tat, Vif, IN, NCp7 and p55gag. Viral RNA itself forms a primer/template complex by association with a cellular tRNA(Lys3) which is already present in mature virions. A RT initiation complex (RTIC) is thus formed which may also involve cellular protein upon viral entry. X rays diffraction and NMR studies of free or inhibitor-bound RT have led to the recognition of RT 3D structure, and allowed a thorough understanding of the mode of action of classical competitive nucleoside RT inhibitors (NRTIs) and of the binding of allosteric, non NRTIs (NNRTIs) inhibitors. This also opened an access to computer-aided drug design and modeling. Current NNRTIs represent, in terms of chemical structures, a heterogeneous class of inhibitors currently undergoing extensive development. By contrast with NRTIs, they seem to block initiation steps of reverse transcription. Molecular dynamics, detailed analysis of their interaction with RT as well as the incidence, in the series, of cases of non classical biological behavior, as illustrated here for a new family of compounds, suggest mechanisms of action which are not understandable without considering the involvement of the RTIC as a whole. This opens the exciting perspective of developing new compounds based on this integrated knowledge. Key Words: Nonnucleoside reverse transcriptase inhibitors (NNRTIs); Reverse transcriptase initiation complex (RTIC); Human immunodeficiency virus (HIV); Non classical nonnucleoside reverse transcriptase inhibitors; Molecular modeling; Docking; QSAR; Natural endogenous reverse transcription (NERT).
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PMID:Nonnucleoside inhibitors of HIV-1 reverse transcriptase: from the biology of reverse transcription to molecular design. 1452 23

The RNA-dependent RNA polymerase of the Sendai virus (SeV) consists of the large protein (L) and the phosphoprotein (P). P plays a crucial role in the enzyme by positioning L (which carries the polymerase activity) onto the matrix for transcription and replication formed by the RNA and the nucleoprotein, the N-RNA. P has a modular structure with distinct functional domains: an N-terminal domain involved in binding to N degrees (N that is not yet bound to RNA) and a C-terminal domain that carries the oligomerisation domain, the N-RNA binding domain and the L binding domain and that, combined with L, is active in transcription. Structural data have previously been obtained on the N-terminal domain and on the oligomerisation domain of P, but not yet on its N-RNA binding domain (also-called the X protein). Here we present an NMR and a small angle neutron scattering study of the SeV X protein. We show that this molecule presents two subdomains linked by an 11-residue linker, with the N-subdomain lacking a well-defined conformation. The 3D structure of the C-subdomain consists of three alpha-helices revealing an asymmetric charge distribution that may be important for binding to RNA-bound nucleoprotein. The structure of the entire C-terminal domain of P is modelled from its constituent parts in combination with small angle scattering data on this domain.
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PMID:Structure and dynamics of the nucleocapsid-binding domain of the Sendai virus phosphoprotein in solution. 1498 Apr 81

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