Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Radioimmunological techniques were applied to the quantitation of the translational products of the gag, pol, and env genes of mammalian type C viruses. Analysis of the viral proteins associated with simian sarcoma-associated virus (SSA V) and SSA V-infected cells revealed in each that the level of reverse transcriptase was less than 1% of that of the major viral structural protein, p30. The rate of intracellular degradation of reverse transcriptase in SSA V-infected cells was found to be no greater than that of several viral structural proteins, indicating that the lower levels of viral enzyme resulted from its decreased synthesis. By screening individual cells infected at limiting SSA V dilution, it was possible to isolate a clone (clone 16), which demonstrated levels of viral p12, p30, and gp70 similar to those found in wild-type SSA V-infected cells, and which released noninfectious virions in large quantity. The noninfectious virions and clone 16 cells were shown to lack immunologically or enzymologically detectable reverse transcriptase. With serial passage of clone 16 cells, reverse transcriptase activity became spontaneously detectable in tissue culture fluids, concomitant with the appearance of infectious virus. The reverse transcriptase associated with this virus was indistinguishable from SSA V polymerase, indicating that the genetic alteration restricting SSA V pol gene expression in clone 16 cells was reversible. These results further demonstrate the strict requirement of reverse transcriptase for establishment of type C virus infection. Possible mechanisms to account for the patterns of type C viral gene expression detected in SSA V-infected cells are discussed.
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PMID:Differential synthesis of mammalian type C viral gene products in infected cells. 7 58

A strategy based on the identification of type-specific antigenic determinants in the transitional products of gag (p15, p12, and p30 proteins), pol (reverse transcriptase), and env (gp70 glycoproteins) genes of mammalian type C viruses has been used to study genetic recombination between these RNA viruses. By this approach, recombinants involving exogenous and endogenous mouse type C viruses have been identified and genetically mapped. Analogous techniques have been applied to investigate the genetic relationships between different classes of endogenous virus that exist within the same mouse cells. Proteins of the inducible class of xenotropic virus were shown to exhibit extensive antigenic homology with the gag but not the env gene products of the ecotropic virus class. Instead, the env gene-coded glycoproteins of the inducible and noninducible xenotropic virus classes possessed striking antigenic relatedness. These results, as well as supporting findings from molecular hybridization, favor the concept that the inducible xenotropic virus of mouse cells arose by a recombinational mechanism involving the progenitors of the other two endogenous virus classes.
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PMID:Genetic recombination between mouse type C RNA viruses: a mechanism for endogenous viral gene amplification in mammalian cells. 7 13

The patterns of oncovirus protein biosynthesis are essentially similar for avian and mammalian viruses. In each case the four major internal structural proteins are synthesized as a precursor polypeptide of about 75 000 daltons, the product of the gag gene. Translation occurs on genome-sized mRNA. This polyprotein is cleaved in a series of steps to give the mature proteins. The mechanism and localization of cleavage have not yet been clarified. Viral reverse transcriptase, the product of the pol gene, also is translated on genome-sized mRNA as a precursor, which is a "read-through" product of the neighbouring gag gene. The two major envelope proteins are translated as a glycosylated precursor of apparent molecular weight about 90 000 from the env gene located on a sub-genomic RNA species. The precursor is transported to the plasma membrane where it may mark the site of virus budding. It is cleaved in transport or on the membrane, but the resulting two mature envelope proteins remain tied by disulfide bonds. Sarc, the protein product of the src gene that is responsible for transformation, is translated from a different viral mRNA than the structural proteins. Sarc has not been definitively characterized in any system.
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PMID:The biosynthesis of oncovirus proteins. 7 78

Cells infected by Rous-associated virus 61 (RAV-61) contained a precursor-like protein, pr90, that was specifically precipitated by antiserum directed against envelope glycoproteins, gp85 and gp35. Tryptic peptide mapping showed that pr90 contained tryptic sequences of both gp85 and gp35. Pactamycin mapping experiments indicated that the two glycoproteins are translated from the env-mRNA in the order (5') gp85--gp35. The pactamycin mapping experiments also indicated a translational order of p10--(p27, p12)--p15 for the gag proteins; this agreement with the order previously reported from tryptic mapping studies on precursor pr76 of avian myeloblastosis virus implied that the stoichiometry of the core proteins was unchanged when virions were assembled in the presence of pactamycin. The reverse transcriptase proteins, unlike those of the env and gag genes, fell on the right side of the pactamycin map. This result is in accord with the idea that most, if not all, of the reverse transcriptase protein is translated by read-through of the gag(pol) message rather than by translation of a hypothetical pol-mRNA devoted solely to synthesis of that protein.
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PMID:Proteins of Rous-associated virus 61, an avian retrovirus: common precursor for glycoproteins gp85 and gp35 and use of pactamycin to map translational order of proteins in the gag, pol, and env genes. 7 10

Hamster fibroblasts transformed by an env- strain of Rous sarcoma virus (RSV) express at their surface tumor-associated antigens of unknown origin and a tumor-specific antigen (VCSA) which is not expressed by hamster fibroblasts transformed by unrelated DNA or RNA oncogenic viruses. This antigen was detectable by rabbit antibodies and a complement-dependent 51Cr-release cytotoxicity assay and is common to RSV-transformed cells of different animal species. By comparing the anti-VCSA serum which antisera directed against purified gp85, gs-proteins, reverse transcriptase or detergentlysed virus particles, it was shown that VCSA is not a known virion structural protein. Moreover, VCSA expression does not correlate with viral replication since it is not detectable in chick embryo fibroblasts productively infected with the transformation-defective virus RAV-1 which shares virus structural genes with RSV. Finally, in hamster cells transformed by an RSV mutant, temperature-sensitive for the ability to transform the host cell, VCSA expression at the cell surface correlates with the expression of the transforming gene.
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PMID:Tumor-specific and tumor-associated membrane antigens of Rous sarcoma virus transformed hamster fibroblasts. 7 59

We have investigated the use of oligodeoxycytidylic acid [oligo(dC)] as a primer for the initiation of DNA synthesis by the avian retrovirus reverse transcriptase in vitro, employing the viral RNA genome as template. The addition of oligo(dC)(12-18) to viral 35S RNA results in a stimulation of DNA synthesis by the viral RNA-directed DNA polymerase comparable to that observed when oligo(dT) is employed as a primer. Under similar conditions neither oligo(dA)(12-18) nor oligo(dG)(12-18) was active as primer for transcription of the avian retrovirus genome. Several different approaches have been employed to localize the oligo(dC)(12-18) binding site on the viral genome, including isolation of poly(A)-containing fragments, competition hybridization, and RNase H hydrolysis. These analyses indicate that oligo(dC)(12-18) binds to a site approximately 2,000 to 3,000 nucleotides from the 3' terminus of the genome of transforming strains of avian sarcoma viruses and approximately 700 to 1,000 nucleotides from the 3' terminus of nontransforming avian retroviruses. Therefore, the major site of initiation of DNA synthesis by oligo(dC)(12-18) appears to be in the vicinity of the 3' end of the env gene and the 5' end of the src gene, although the presence of minor initiation sites located elsewhere on the viral genome cannot be excluded by these data. Characterization of oligonucleotides after pancreatic RNase hydrolysis and poly(C)-Sepharose chromatography of viral RNA directly demonstrates the presence of oligoguanylic acid residues in the avian sarcoma virus genome. DNA sequences transcribed from the oligo(dC) primer appear to be conserved in all of the avian leukosis-sarcoma viruses tested. The use of oligo(dC) as a tool for the production of specific complementary DNA probes is discussed.
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PMID:Initiation of DNA synthesis by the avian retrovirus reverse transcriptase in vitro: nature and location of the oligodeoxycytidylic acid primer binding site. 9 Jan 58

The genetic compositions of two independently derived preparations of the Bratislava-77 strain (B77) of Rous sarcoma virus were analyzed after each was passaged seven or more times in duck embryo fibroblasts. RNase, T1-resistant oligonucleotide fingerprint analysis of virion RNA from both preparations of duck-passaged B77 revealed the presence of two large noncontiguous deletions. Approximately 75% of the RNAs contained a deletion which spans oligonucleotides 304 to 4 on the viral genome (about 3,500 nucleotides) and encompasses all of the B77 polymerase gene. More than 90% of the RNAs also contained a deletion which spans src-specific oligonucleotides 6 and 5(about 2,200 nucleotides) and is identical to the deletion observed in transformation-defective B77. Virion RNA from duck-passaged B77 also contained two oligonucleotides (D1 and D2) not observed in the RNA of B77 virus grown on chicken embryo fibroblasts. Analysis of the virion RNA of duck-passaged B77 by denaturing agarose gel electrophoresis revealed four major subunits with molecular weights of 3.40 x 10(6), 2.65 x 10(6), 2.25 x 10(6), and 1.55 x 10(6). Whereas the 3.40- and 2.65-megadalton (Mdal) RNA species comigrated with the nondefective and transformation-defective RNAs of B77 propagated on chicken embryo fibroblasts, no counterparts to the 2.25- and 1.55-Mdal RNAs were observed in the RNA of B77 grown on chicken embryo fibroblasts. Oligonucleotide fingerprint analysis of these RNA species revealed that the 2.65-Mdal RNA contains the src-specific deletion and that 2.25-Mdal RNA contains the polymerase region deletion; both of these deletions were observed in the 1.55-Mdal RNA, which was the major RNA subunit species detected in duck-passaged B77. The new oligonucleotides (D1 and D2) observed in the duck-passaged virus were present in the 2.25- and 1.55-Mdal RNA species in vitro and in vivo and directs the synthesis of a 130,000-dalton protein (p130). p130 contains antigenic determinants specific for p27 (gag gene) and gp85 (env gene) but does not contain sequences which cross-react with antisera directed against the alpha beta form of RNA-dependent DNA polymerase (pol gene). This RNA, therefore, is generated by a fusion of the gag and env genes of Rous sarcoma virus B77.
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PMID:Deletion mutant of the Bratislava-77 strain of Rous sarcoma virus containing a fusion of the group-specific antigen and envelope genes. 9 86

We have determined the DNA structure of the Ulysses transposable element of Drosophila virilis and found that this transposon is 10,653 bp and is flanked by two unusually large direct repeats 2136 bp long. Ulysses shows the characteristic organization of LTR-containing retrotransposons, with matrix and capsid protein domains encoded in the first open reading frame. In addition, Ulysses contains protease, reverse transcriptase, RNase H and integrase domains encoded in the second open reading frame. Ulysses lacks a third open reading frame present in some retrotransposons that could encode an env-like protein. A dendrogram analysis based on multiple alignments of the protease, reverse transcriptase, RNase H, integrase and tRNA primer binding site of all known Drosophila LTR-containing retrotransposon sequences establishes a phylogenetic relationship of Ulysses to other retrotransposons and suggests that Ulysses belongs to a new family of this type of elements.
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PMID:Ulysses transposable element of Drosophila shows high structural similarities to functional domains of retroviruses. 131 87

Spliced messages encoded by two distinct strains of feline immunodeficiency virus (FIV) were identified. Two of the cDNA clones represented mRNAs with bicistronic capacity. The first coding exon contained a short open reading frame (orf) of unknown function, designated orf 2. After a translational stop, this exon contained the L region of the env orf. The L region resides 5' to the predicted leader sequence of env. The second coding exon contained the H orf, which began 3' to env and extended into the U3 region of the long terminal repeat. The in-frame splicing of the L and H orfs created the FIV rev gene. Site-directed antibodies to the L orf recognized a 23-kDa protein in infected cells. Immunofluorescence studies localized Rev to the nucleoli of infected cells. The Rev-responsive element (RRE) of FIV was initially identified by computer analysis. Three independent isolates of FIV were searched in their entirety for regions with unusual RNA-folding properties. An unusual RNA-folding region was not found at the Su-TM junction but instead was located at the end of env. Minimal-energy foldings of this region revealed a structure that was highly conserved among the three isolates. Transient expression assays demonstrated that both the Rev and RRE components of FIV were necessary for efficient reporter gene expression. Cells stably transfected with rev-deleted proviruses produced virion-associated reverse transcriptase activity only when FIV Rev was supplied in trans. Thus, FIV is dependent on a fully functional Rev protein and an RRE for productive infection.
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PMID:Identification of the Rev transactivation and Rev-responsive elements of feline immunodeficiency virus. 132 7

Polymerase chain reaction analysis was used to investigate the possible role of human spumaretrovirus and oncoretroviruses (human T-cell lymphotropic virus types I [HTLV-I] and II [HTLV-II]) in multiple sclerosis. Eleven patients with relapsing-remitting multiple sclerosis in exacerbation and 11 normal blood donors were included in the study. Cerebrospinal fluid cells, peripheral blood mononuclear cells, and plasma were cocultured with allogeneic mononuclear cells for 6 weeks. Cultured cells were subjected to polymerase chain reaction analysis with primers selected for the pol and gag (human spumaretrovirus), pol and env (HTLV-I), and pol (HTLV-II) genes. Polymerase chain reaction was negative in all patient and blood donor control samples, whereas positive controls were consistently reactive with high sensitivity. No culture exhibited cytopathic effects and supernatants were negative for reverse transcriptase activity. Thus, our results do not support a role for these retroviruses in the pathogenesis of multiple sclerosis.
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PMID:No evidence for spumavirus or oncovirus infection in relapsing-remitting multiple sclerosis. 133 76


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