EC:2.7.7.49 - FACTA Search

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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)

A proteolytic activity is associated with structural protein p15 in avian RNA tumor viruses. Its effect on the known intracellular viral polyprotein precursors obtained by immunoprecipitation was investigated. Cleavage of Pr76gag resulted in the sequential appearance of p15, p27, and p19. The intracellular precursor Pr180gag-pol was also cleaved by p15, whereas the intracellular glycoprotein precursors of avian RNA tumor viruses, Pr92env, remained unaffected by p15 under all conditions tested. The specificities of the antibodies used to precipitate the precursors influenced the pattern of intermediates and cleavage products obtained by p15 treatment. If virus harvested from the the Prague strain of Rous sarcoma virus, subgroup C-transformed cells at 15-min intervals was incubated at 37 degrees C for further maturation, RNA-dependent DNA polymerase activity showed an optimum of DNA synthesis with 70S viral RNA or synthetic template-primers after short incubation periods. The presence of additional p15 during incubation resulted in a shift of the enzyme activity peak toward earlier time points. Virus harvested at 3-h intervals contained significant amounts of Pr180gag-pol and Pr76gag. The addition of p15 resulted in the cleavage of Pr180gag-pol and Pr76gag, but only a few distinct low-molecular-weight polypeptides appeared. Treatment of purified RNA-dependent DNA polymerase with p15 in vitro resulted in a disappearance of the beta subunit and an enrichment of the alpha subunit. In addition, a polypeptide of 32 x 10(3) molecular weight was generated. The cleavage pattern observed differed from the one obtained by trypsin treatment.
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PMID:Effect of p15-associated protease from an avian RNA tumor virus on avian virus-specific polyprotein precursors. 615 35

Reverse transcriptase from avian retrovirus has a physically associated DNA endonuclease with novel substrate and cofactor requirements. A similar endonuclease activity copurifies with pp32, a protein from viral cores that has been identified with the non-alpha region of the beta subunit of reverse transcriptase. Several temperature-sensitive mutants of avian retrovirus with thermolabile DNA polymerase were tested for thermal sensitivity of their DNA endonuclease activity. Two pol mutants of Rous sarcoma virus, ts335 and ts337, had thermolabile DNA endonuclease; a temperature-resistant revertant of ts335 had a heat-stable DNA endonuclease. DNA endonuclease is therefore a product of the pol gene and an integral part of the reverse transcriptase. A second class of pol mutants, typified by ts568 and ts553, had thermolabile DNA polymerase, but heat-stable DNA endonuclease.
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PMID:Virus-coded DNA endonuclease from avian retrovirus. 616 35

Reverse transcriptase from Rous sarcoma virus and avian myeloblastosis virus was purified by a rapid two-step procedure using chromatography on phosphocellulose and heparin-Sepharose. The resulting enzyme was homogeneous, had a high specific activity and was free of contaminating nucleases. This procedure has been adapted to small-scale preparation of enzyme from mutant virus containing thermolabile reverse transcriptase, and is equally suitable for large-scale enzyme purification.
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PMID:Purification of reverse transcriptase from avian retroviruses using affinity chromatography on heparin-sepharose. 616 44

LA3382 is a temperature-sensitive replication-defective mutant of Rous sarcoma virus that contains four active mutations. In this study we performed experiments to determine the biochemical defect that blocks the synthesis of infections virus late in the replication cycle. At the nonpermissive temperature (41 degrees C) cells infected with LA3382 synthesized virus particles which were noninfectious and exhibited significant reductions in the amounts of gp85 and gp37 present in the virions. An analysis of the intracellular viral polypeptides indicated that the precursor of the viral glycoproteins (Pr95) were synthesized normally but underwent cleavage at a reduced rate at the restrictive temperature. Pr95 did not accumulate in infected cells ans was inserted into mutant virions at 41 degrees C; however, Pr95 was cleaved in such a way that gp85 was released from the viruses and could be detected in the supernatant medium by immunoprecipitation. The virus-free glycoprotein was indistinguishable from wild-type gp85 and may have been released due to an anomalous cleavage. Pulse-chase experiments also indicated that the Pr180 polyprotein precursor of the reverse transcriptase was cleaved to the active form of the enzyme more slowly at 41 degrees C in LA3382-infected cells. This accounted for the twofold lower level of polymerase activity found in mutant virions at 41 degrees C, defect which probably did not account for the observed 20- to 50-fold reduction in infectivity. Furthermore, the replication defect was not complemented by an env deletion mutant Rous sarcoma virus [RSV(-)[, which should complement a pol defect. Therefore, we conclude that the major lesion that impairs replication in LA3382 is within the env gene.
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PMID:Rous sarcoma virus mutant LA3382 is defective in virion glycoprotein assembly. 617

Pretreatment of chick embryo fibroblasts (CEF) with low doses of homologous interferon (16 u/ml) drastically inhibits cell transformation by, and replication of Rous sarcoma virus (RSV). Treatment of chick cells with 16 u/ml of interferon before de novo infection with a transformation defective (td) mutant-RSV, also resulted in a reduction of extracellular virus particles. This was determined by infectivity titrations, virus associated reverse transcriptase (RT) activity and measurement of metabolically radioactively labelled virus particles. The viral proteins pr 180, pr 76, p 27, p 19 and p 12 were still synthesized in interferon-treated cells in an unaltered form, although at slightly reduced levels. No difference in the pattern of structural proteins could be detected between virus particles harvested from cells treated with interferon and from control cells. In contrast to de novo infected cells, concentrations of interferon as high as 200 u/ml had no influence on the reversible transformation of cloned fibroblasts infected with a temperature sensitive mutant of RSV. In addition, fibroblasts infected with td-SR-RSV-D before addition of interferon showed only a marginal effect on formation of infectious virus even after treatment with 200-500 u/ml of interferon. This was not caused by interferon-resistance of the td-SR-RSV-D infected cells since viral protein synthesis by superinfecting Vesicular stomatitis virus (VSV) was as sensitive to interferon as in cells not preinfected with retrovirus. Our results support the notion that exogenous infection of fibroblasts with avian retrovirus is inhibited by interferon during an early phase of the replication cycle.
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PMID:Interferon inhibits establishment of fibroblast infection with avian retroviruses. 618 Jan 4

We studied intracellular avian gag proteins (internal structural proteins of virions) in several mammalian cell lines transformed by Rous sarcoma virus. All lines examined contain gag antigens as determined by radioimmune assay. We used the techniques of protein blotting from polyacrylamide gels, which detects nanogram quantities of viral protein, to investigate the size of intracellular viral polypeptides. All of the lines that contained enough viral protein to be amenable to this type of analysis synthesized Pr76, the avian sarcoma virus gag precursor polypeptide, but failed to process it into mature virion proteins. In some cell lines, the recovery of Pr76 was greatly enhanced by the addition of a mixture of protease inhibitors, including the sulfhydryl-blocking reagent N-ethylmaleimide, to the lysis buffer. At least several of the mammalian cells also synthesized a viral polypeptide the size of Pr180, the precursor to reverse transcriptase. Since Rous sarcoma virus does not replicate or replicates extremely poorly in mammalian cells, the lack of processing suggests that cleavage and virion assembly are invariably associated.
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PMID:Avian sarcoma virus gag precursor polypeptide is not processed in mammalian cells. 618 52

Preparations of the alphabeta and the betabeta forms of reverse transcriptase from the Prague C strain of Rous sarcoma virus grown in chicken embryo fibroblasts, the alphabeta and the betabeta forms of the enzyme from the B77 strain of Rous sarcoma virus grown in duck embryo fibroblasts, and the alphabeta form of reverse transcriptase from avian myeloblastosis virus have been analyzed. All these enzyme preparations contain a Mn(2+) -activated endonuclease activity. The betabeta form of enzyme, in addition, contains a Mg(2+) -dependent endonuclease. Such an activity is barely detectable in the alphabeta form of enzymes. The endonuclease associated with reverse transcriptase introduces single- and double-strand breaks containing 3' OH and 5' P termini into RF I DNA. The conversion of RF I DNA to RF III DNA is more readily catalyzed by the betabeta form of reverse transcriptase. In contrast to a recently published report by Hizi et al. (J. Virol 41:974-981, 1982), we have failed to detect the conversion of RF I DNA to covalently closed relaxed circles (RF IV DNA) by any of the alphabeta form of enzymes tested. RF IV DNA was not produced by the betabeta form of reverse transcriptase either. We conclude that topoisomerization is not an intrinsic activity of reverse transcriptase. Although the conversion of RF I DNA to RF II DNA was found to be rapid, the endonuclease associated with reverse transcriptase acted slowly on RF II, RF III, and RF IV DNAs. Circular and linear single-stranded DNAs were also susceptible to cleavage by the endonuclease at a rate comparable to nicking of RF I DNA. This pattern of activity suggests that the endonuclease cleaves the RF I DNA in the single-stranded regions of the DNA induced by its supercoiling. The preference of the alphabeta and the betabeta forms of the endonuclease for viral DNA was tested with Rous-associated virus type 2 and Rous sarcoma virus transformation-defective Schmidt-Ruppin B strain DNA molecularly cloned in plasmid pBR322 and M13 DNA vectors, respectively. The rate of nicking of RF I DNA containing viral DNA or partial sequences of viral DNA with one or two tandem long terminal repeats was the same as when these sequences were not present in the host vectors. A similar lack of preference was observed with single-stranded M13 DNAs.
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PMID:Mechanism of action of the endonuclease associated with the alpha beta and beta beta forms of avian RNA tumor virus reverse transcriptase. 618 36

We have investigated the influence of 2',5' adenosine nucleotides on the replication and transformation of cells by Rous sarcoma virus (RSV). Treatment with the nucleotides ppp2',5'A4 and 2',5'A4 causes a striking reduction (50-fold) in the yield of infectious progeny virus, while ppp2',5A2 and 2',5'A3 had virtually no effect. The reduction in infectivity seen with 2',5'A4 nucleotides is paralleled by a smaller but significant (three- to four-fold) reduction in the amount of particles released as measured by reverse transcriptase activity and levels of viral structural proteins. The reduced infectivity of released particles is not due to viral RNA being missing since the amount of genomic RNA in particles from 2',5'A4-treated cultures was likewise only reduced by a factor of 2-3. Pulse-chase radioactive label experiments showed that processing of both viral group-specific antigens (gag) and viral envelope glycoprotein (env) gene products was completely normal in nucleotide-treated cultures, but that the rate of appearance of viral proteins in mature virus in the culture supernatants was reduced by a factor of about 3-4. Taken together, the data show that assembly of viral structural proteins into virions which can be released into the medium is slowed, and that assembly of virus particles with reduced infectivity follows upon nucleotide treatment. This inhibition of infectious virus production takes place without significant toxic effects on the cell; host protein synthesis is only 20% inhibited. There is also no significant effect on the secretory ability of the cells as measured by total protein release into the medium or release of fibronectin. The transformed cell phenotype was also subtly affected by 2',5'A4, but not by other oligomers. Plasminogen activator protease activity was sharply reduced upon treatment, while other typical features of RSV-transformed cells such as elevated hexose transport, and pp60src-associated protein phosphokinase activity, were little affected.
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PMID:Inhibition of Rous sarcoma virus assembly by treatment with 2',5' adenosine nucleotides. 619 38

Two in vitro approaches were used to investigate the priming of strong-stop plus DNA by Rous sarcoma virus. This 340-base DNA species is the first major plus-strand DNA product seen in both infected cells and in endogenous reactions of disrupted virions. In the first approach, we set up a reconstructed system in which strong-stop plus DNA was synthesized by reverse transcriptase from a high-molecular-weight minus-strand viral DNA template. This synthesis was shown to be strictly dependent on the addition of primers to the reaction mixture. The addition of high-molecular-weight RNA from both viral and cellular sources, as well as oligodeoxyguanylate, gave specific synthesis of strong-stop plus DNA, whereas the addition of oligodeoxycytidylate-oligodeoxyadenylate and viral 4S RNA did not. In the second approach, strong-stop plus DNA synthesized in melittin-permeabilized virions was examined on a high-resolution polyacrylamide gel. This DNA was shown to have ca. 11 to 13 ribonucleotides at its 5' end. These results indicate that strong-stop plus DNA is initiated on a preformed RNA primer.
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PMID:Initiation of plus-strand DNA synthesis during reverse transcription of an avian retrovirus genome. 619 36

Contamination of Japanese quail, strain Pharaoh, cell culture with oncogenous and infectious avian viruses was studied. The susceptibility of the embryonal cell cultures of the Japanese quail, strain Pharaoh, to measles, parotitis and fixed rabies viruses was also determined. It was found that the sera of pubertal quails had no antibody to Rous sarcoma virus (RSV), strains Brian, RSV (RAV-1), Schmidt-Ruppin, Carr-Zilber, as well as to Marek's disease and Newcastle disease viruses. No reverse transcriptase activity was detected in the embryonal alantoic fluid of this avian species. The quails were less susceptible, as compared to the chicken, to Schmidt-Ruppin and Carr-Zilber strains of RSV. Measles, parotitis and fixed rabies viruses reproduced actively in the Japanese quail, Pharaoh strain, embryonal cell cultures. It is suggested that the embryonal cell cultures of this avian species can be used as a leukemia-free substrate for experimental studies and manufacturing of viral vaccines.
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PMID:["Pharaoh" line culture of Japanese quail cells as a leukosis-free system for virus reproduction]. 625 36

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