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)

Most of the transposons so far characterized from mosquito genomes are retroelements which seem to be distributed worldwide. The Juan transposons constitute a family of non-LTR retroelements, or LINE-retroposons, which are dispersed in the genomes of several mosquito species. Three different Juan subfamilies have been characterized, each being amplified in the genomes of many strains, if not all, of a given mosquito species. These subfamilies have been designated respectively Juan-C in Culex pipiens, Juan-Ct in Culex tarsalis and Juan-A in Aedes aegypti. A large number of the Juan retroposons which are amplified in the mosquito genomes are apparently full-length copies and potentially encode the enzymes necessary for their transposition, a nucleic acid binding protein and a reverse transcriptase. However, these complete Juan copies seem to be most frequently transcriptionally silent in insects reared under laboratory conditions. A few of them are transcribed in C. pipiens cells grown in vitro, but from an external promoter, the Juan-C specific RNA being fused to an upstream RNA sequence. Therefore, the transcription of Juan retroposons seems to depend on external promoters which are most frequently inactive. The occurrence and distribution of Juan retroposon subfamilies among mosquito species do not reflect the phylogeny of these species. Furthermore, complete Juan-C and Juan-A copies which are reiterated in strains collected from regions covering different continents are nearly identical. Juan-C copies belonging to geographically different C. pipiens strains display low levels of divergence between their nucleotide sequences and many of the mutations which have occurred among these copies do not alter their coding potential. These results indicate that the Juan retroposons occur as homogeneous subfamilies distributed worldwide and that selective constraints against amino acid change have been acting recently on these elements, despite the fact that they are now highly repeated through mosquito genomes. Therefore, Juan transposons have most probably been recently amplified in mosquito genomes. Each subfamily may have been amplified from one master element present in a unique population which has since spread worldwide. Alternatively, this amplification may have arisen in many mosquito populations, but from highly conserved master elements submitted to selection pressures. Horizontal transfers between species may also have contributed to the spread of these transposons.
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PMID:Mosquito transposable elements. 781 11

SDZ NIM 811 is a cyclosporin A analog that is completely devoid of immunosuppressive capacity but exhibits potent and selective anti-human immunodeficiency virus type 1 (HIV-1) activity. The mechanism of action of SDZ NIM 811 is clearly different from those of all other anti-HIV agents described so far. In cell-free assays, it is not an inhibitor of reverse transcriptase, protease, integrase, and it does not interfere with Rev or Tat function. SDZ NIM 811 does not down-regulate CD4 or inhibit fusion between infected and uninfected, CD4-expressing cells. p24 production from chronically HIV-infected cells is not impaired either. To elucidate the mode of action of SDZ NIM 811, we performed DNA PCR analysis in HIV-1 IIIB-infected MT4 cells in one cycle of virus replication. The effects of SDZ NIM 811 on the kinetics of viral DNA synthesis, appearance of two-long terminal repeat circles (2-LTR circles), and integration of DNA were studied. SDZ NIM 811 inhibited 2-LTR circle formation in a concentration-dependent manner, which is indicative of nuclear localization of preintegration complexes. Half-maximal inhibition was achieved at 0.17 microgram/ml; this concentration is close to the 50% inhibitory concentrations (0.01 to 0.2 microgram/ml) for viral growth inhibition. As expected, integration of proviral DNA into cellular DNA was also inhibited by SDZ NIM 811. Analysis of the viral particles produced by SDZ NIM 811-treated, chronically infected cells revealed amounts of capsid proteins, reverse transcriptase activity, and viral RNA comparable to those of the untreated control. However, these particles showed a dose-dependent reduction in infectivity (50% inhibitory concentration of 0.028 microgram/ml) which indicates that the assembly process is also impaired by SDZ NIM 811. Gag proteins are postulated to play a role not only in assembly but also in early steps of viral replication, e.g., nuclear localization of the preintegration complex. Recently, it was reported that HIV-1 Gag protein binds to cyclophilin A, the intracellular receptor for cyclosporin A. Interference with Gag-cyclophilin interaction may be the molecular basis for the antiviral activity of cyclosporin A and its analogs.
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PMID:Mode of action of SDZ NIM 811, a nonimmunosuppressive cyclosporin A analog with activity against human immunodeficiency virus type 1 (HIV-1): interference with early and late events in HIV-1 replication. 781 48

Phosphorothioate analogs of oligodeoxynucleotides at a concentration of 2 microM protected Himalayan tahr cells from infection by caprine arthritis encephalitis virus (CAEV) and equine dermis cells from infection by equine infectious anemia virus (EIAV). The characteristics of this inhibition against these lentiviruses are similar to those previously described for the inhibition of HIV-1 in ATH8 cells [17]. Thus, the 28-mer homo-oligomer of cytidine [S-(dC)28] was at least as effective as three anti-sense sequences targeted to the LTR, gag, and env regions of CAEV. The effectiveness of homo-oligomers of equal length was in the order C >> A > T, and a random 28-copolymer with a composition of 2C:1G was as effective as S-(dC)28. Shorter oligonucleotides were less effective (28 > 14 > 5 mers) for all base compositions tested. While replication of a simian type D retrovirus was inhibited by S-(dC)28, this compound did not inhibit the cytopathogenicity of two type C retroviruses, amphotropic murine leukemia virus (MuLV), and baboon endogenous virus, when they were tested in the same cell lines used to support the replication of lentiviruses. Southern blot analysis of the high molecular weight DNA of drug-treated CAEV-infected cells showed that S-(dC)28 was acting at or before the reverse transcription step. Our present data and the earlier finding that S-(dC)28 is a potent in vitro inhibitor of the MuLV reverse transcriptase [15] suggest that S-(dC)28 is acting very early in the replication cycle of these lentiviruses. Since MuLV reverse transcriptase is inhibited in vitro, but its replication is not blocked in permissive cells, our data suggest that the phosphorothioate oligonucleotides are preventing virus attachment.
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PMID:Phosphorothioate oligonucleotides inhibit the replication of lentiviruses and type D retroviruses, but not that of type C retroviruses. 782 17

The cDNA encoding the C-terminal nucleotide-binding domain (NBD2) from mouse P-glycoprotein involved in multidrug resistance was obtained from adrenal cell mRNA and amplified by reverse transcriptase polymerase chain reaction. NBD2 was highly overexpressed in Escherichia coli in fusion with glutathione S-transferase and could be purified after efficient thrombin cleavage. Both fused and purified NBD2 bound TNP (2',3'-O-(2,4,6-trinitrophenyl))- derivatives of nucleotides with high affinity. TNP-ATP or TNP-ADP binding at micromolar concentrations produced a characteristic blue-shifted enhancement of extrinsic fluorescence and was specifically prevented or chased by ATP or ADP at millimolar concentrations. A similar affinity binding was monitored by quenching of intrinsic fluorescence. The spectrum of fusion protein, containing 5 tryptophan residues, was maximally quenched at 328 nm upon interaction with TNP-nucleotides. TNP-GTP exhibited a lower affinity than TNP-ATP but produced a higher maximal quenching (44% instead of 28%). The intrinsic fluorescence of purified NBD2, containing a single tryptophan residue, exhibited a narrow spectrum with a maximum at 328 nm characteristic of a hydrophobic tryptophan environment. A high quenching was observed upon nucleotide interaction with similar affinity. The results put forward a functional role for the tryptophan-containing sequence of P-glycoprotein NBD2 that was not detected up to now.
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PMID:Overexpression and purification of the carboxyl-terminal nucleotide-binding domain from mouse P-glycoprotein. Strategic location of a tryptophan residue. 791 13

Retroviruses are commonly considered to be restricted to vertebrates. However, the genome of many eukaryotes contains mobile sequences known as retrotransposons with long terminal repeats (LTR retrotransposons) or viral retrotransposons, showing similarities with integrated proviruses of retroviruses, such as Ty elements in Saccharomyces cerevisiae, copia-like elements in Drosophila, and endogenous proviruses in vertebrates. The gypsy element of Drosophila melanogaster has LTRs and contains three open reading frames, one of which encodes potential products similar to gag-specific protease, reverse transcriptase, and endonuclease. It is more similar to typical retroviruses than to LTR retrotransposons. We report here experiments showing that gypsy can be transmitted by microinjecting egg plasma from embryos of a strain containing actively transposing gypsy elements into embryos of a strain originally devoid of transposing elements. Horizontal transfer is also observed when individuals of the "empty" stock are raised on medium containing ground pupae of the stock possessing transposing elements. These results suggest that gypsy is an infectious retrovirus and provide evidence that retroviruses also occur in invertebrates.
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PMID:Retroviruses in invertebrates: the gypsy retrotransposon is apparently an infectious retrovirus of Drosophila melanogaster. 810 3

A plasmid bearing a transpositionally functional GAL1::Ty1 fusion was mutagenized by insertion of four or five codons semirandomly throughout the plasmid. This collection of mutant plasmids was introduced into yeast cells and studied with regard to the properties of the mutant Ty1-encoded proteins and the transposition phenotypes observed. All of the transposition-inactivating mutations were previously found to be recessive with the exception of a single mutation in TYA. In this mutant, TYA protein of normal abundance is produced, but the virus-like particles containing this protein are unstable and have aberrant behavior. The effects of mutations in noncoding regions, as well as the capsid protein coding region TYA, and the regions encoding the protease, integrase and reverse transcriptase proteins are described. Effects on gene expression, types of proteins produced, proteolysis of precursor proteins, virus-like particle structure, and biochemical activities of the encoded proteins are summarized. In addition, we show that one of the mutations in the 3' LTR represents a new nonessential site into which foreign marker DNA can be inserted without compromising transposition.
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PMID:In-frame linker insertion mutagenesis of yeast transposon Ty1: phenotypic analysis. 811 84

Thromboxane A2, a potent platelet agonist and vasoconstrictor, exerts its actions via specific G protein-coupled receptors. cDNAs encoding the full length thromboxane receptor have been isolated from human placenta mRNA by reverse transcriptase-polymerase chain reaction. An expression construct, under control of the cytomegalovirus promoter, was introduced into human embryonic kidney 293 cells. Membranes from transfected cells bound the thromboxane antagonist SQ29,548 and the agonist [15-(1 alpha,2 beta(5z)-3 alpha(1E,3S)-4 alpha)]-7-[3-(3-hydroxy-4-(p- iodophenoxy)-1-butenyl)-7-oxabicyclo[2,2,1]hept-2-yl]-5-heptenoic acid) with high affinities, and significantly more receptors were expressed in these cells, compared with platelet preparations. The putative seventh transmembrane segment is highly related in all cloned members of the eicosanoid receptor family and forms a critical portion of the ligand binding pocket for G protein-coupled receptors. Several point mutations in this segment were generated. Binding of SQ29,548 was virtually abolished in cells transfected with all the variant receptor constructs. However, one receptor variant (TxR-W299L), in which a tryptophan at position 299 was substituted for a leucine residue, allowed a definite discrimination between agonist and antagonist binding sites in competition and saturation binding experiments. An antibody directed toward the third intracellular loop of the thromboxane receptor was able to immunoprecipitate native thromboxane receptor in solubilized membranes from human erythroleukemia cells and transfected cells.
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PMID:Point mutation in the seventh hydrophobic domain of the human thromboxane A2 receptor allows discrimination between agonist and antagonist binding sites. 824 16

Nineteen recombinant phages containing DNA from the region of Balbiani ring a (BRa), which develops on chromosome IV in cells of the special lobe of the Chironomus thummi salivary gland, were isolated from a Chironomus thummi genomic library. Three of the clones contained transposable element sequences that hybridized to more than 100 sites on all four Chironomus chromosomes, including constant and variable sites. Two handogous clones, lambda 24 (which lacks the transposable element) and lambda 43 (which contains this insertion) were investigated by nucleotide sequence analysis. The complete nucleotide sequence of the 4.8 kb transposable element from Chironomus thummi (NLR1Cth) is reported here. This element contains two overlapping open reading frames of 1887 (ORF1) and 2649 bp (ORF2). Three cysteine motifs are found in the sequence of ORF1. Sequence similarity was found between ORF2 and known genes of viruses and transposable elements which encode reverse transcriptase. The NLR1Cth element has no long terminal repeats and is flanked by short direct repeats of the sequence TATCACTGACAAC. A 24 bp poly(dA) sequence was found at the 3' end of the element. Based upon its structural organization and comparative analysis of its nucleotide sequence we suggest that this NLR1Cth element belongs to the class of non-LTR retrotransposons. The genomic clone pC6.10 was previously obtained by microdissection and cloning of DNA from polytene chromosome IV of Chironomus thummi. A 2.4 kb insertion contained part of the 3' terminal region of the NLR1Cth element, but this differed in sequence from the first copy by several nucleotide substitutions and a shorter poly (dA) tract at the 3' end.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The Chironomus thummi genome contains a non-LTR retrotransposon. 838 52

A 4.7 kb sequence-specific insertion in the 26S ribosomal RNA gene of Ascaris lumbricoides, named R4, is shown to be a non-long terminal repeat (non-LTR) retrotransposable element. The R4 element inserts at a site in the large subunit rRNA gene which is midway between two other sequence-specific non-LTR retrotransposable elements, R1 and R2, found in most insect species. Based on the structure of its open reading frame and the sequence of its reverse transcriptase domain, R4 elements do not appear to be a family of R1 or R2 elements that have changed their insertion site. R4 is most similar in structure and in sequence to the element Dong, which is not specialized for insertion into rRNA units. Thus R4 represents a separate non-LTR retrotransposable element that has become specialized for insertion in the rRNA genes of its host. Using oligonucleotide primers directed to a conserved region of the reverse transcriptase encoding domain, insertions in the R4 site were also amplified from Parascaris equorum and Haemonchus contortus. Why several non-LTR retrotransposable elements have become specialized for insertion into a short (87 bp) region of the large subunit rRNA gene is discussed.
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PMID:R4, a non-LTR retrotransposon specific to the large subunit rRNA genes of nematodes. 852 53

A COS-like monkey kidney cell line stably transfected with the plasmids pCMVgagpol-rre-r with the gag and pol genes, and pCMV rev with the rev gene of HIV-1 derived from the cDNA clone BH10, was used as a model for assessing the effectiveness of antisense (AS) constructs, A 20-mer oligodeoxyribonucleotide (oligo) phosphorothioate sequence (5'-CCG CCC CTC GCC TCT TGC CG) complementary to a portion of the 5'-long terminal repeat (5'-LTR) of the HIV-1 genome was tested for its inhibitory effects on the biologically important processes of HIV-1 replication and proliferation. We observed a concentration-dependent inhibition of HIV protein synthesis. Desitometric analysis of data from Western blot analysis showed sequence-specific and concentration-dependent oligo inhibition of p24 viral core antigen formation in the low-microM range. When lipofectin was used as a delivery vehicle, a markedly increased potentiation of the AS activity of the sequence was observed at a lower concentration (0.1 microM), following a 24-h preincubation. The AS construct specifically inhibited intracellular p24 production in chronically HIV-1-infected cells of lymphoid origin (H9/IIIB cells) by 95%, resulting in a 15-fold inhibitory effect relative to a similar sequence thiolated at only seven single-base positions. A concentration-dependent attenuation in the reverse transcriptase activity and a reduction in viral p24 level was observed in the culture supernatant of AS-pretreated HIV-1-infected phytohemagglutinin A-stimulated human cord blood mononuclear cells. Incubation of a HIV-1-infected lymphoid cell line with AS sequence resulted in a marked reduction in syncytium formation, and therefore protected cells from the cytopathic effects of the virus. Furthermore, the AS oligo did not appear to be cytotoxic in cell growth rate and colony-forming ability assays. The AS oligo described in this report is a useful new tool for the molecular analysis of HIV-1 gene expression and proliferation, and may have potential as a therapeutic agent.
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PMID:Antiviral activity and protection of cells against human immunodeficiency virus type-1 using an antisense oligodeoxyribonucleotide phosphorothioate complementary to the 5'-LTR region of the viral genome. 854 66


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