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)

Lysates of Moloney murine sarcoma-leukemia virus [M-MSV(MLV)], a virus complex grown in the rat cell line 78A-1, were found to contain three RNase H species separable by polycytidylic acid[poly(C)]-agarose chromatography. RNase H activity (RNase H I) associated with RNA-directed DNA polymerase eluted at 0.23 M KCI from poly(C)-agarose. RNase H II, which eluted from poly(C)-agarose at 0.12 M KCI and was not associated with DNA polymerase activity, was shown to be identical to an RNase H species (designated RNase H II) previously isolated from M-MSV(MLV) by a different procedure (G. F. Gerard and D. P. Grandgenett, J. Virol. 15:785-797, 1975). M-MSV(MLV) RNase H II was established to be a random exohybridase that requires free-chain termini in its hybrid substrate for activity. Lysates of Rickard feline leukemia virus also contained RNase H activity not associated with DNA polymerase activity that eluted from poly(C)-agarose at 0.12 M KCl. A third species of enzyme from M-MSV(MLV) lysates, called RNase H III, did not bind to poly(C)-agarose in 0.06 M KCl. RNase H III was purified from lysates of M-MSV(MLV) and M-MLV (grown in mouse cells) by sequential chromatography on poly(C)-agarose, DEAE-cellulose, phosphocellulose, and polyuridylic acid-Sepharose. Purified RNase H III (i) was free of any associated DNA polymerase activity, (ii) had an apparent molecular weight of 30,000 determined by Sephadex G-100 gel filtration, (iii) had an absolute requirement for Mn2+ (1 mM optimum) for the degradation of [3H](A)n.(dT)n, (iv) was inhibited by the presence of any salt in reaction mixtures, and (v) was endoribonucleolytic in its mode of action as indicated by the size distribution of limited degradation products of [3H](A)n.(dT)n. RNase H III was inhibited by antisera prepared against Rauscher MLV and simian sarcoma virus reverse transcriptase, and the quantity of RNase H III and RNase H I present in lysates of M-MLV were reduced and increased proportionately if virus was lysed in the presence of the protease inhibitor phenylmethylsulfonyl fluoride. These results indicate that RNase H III is a proteolytic cleavage product of DNA polymerase-RNase H. Substantial RNase H activity that did not bind to poly(C)-agarose in 0.06 M KCl was also found in lysates of Harvey MSV(MLV), Rauscher MLV, and Rickard feline leukemia virus, but not in lysates of avian myeloblastosis virus.
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PMID:Multiple RNase H activities in mammalian type C retravirus lysates. 7 33

The majority of the mRNA that specifies retrovirus glycoproteins is known to be derived from the 3' half of the genome. To examine whether the glycoprotein mRNA of murine leukemia viruses (MuLVs) might consist of portions derived from both the 5' and 3' ends of the viral genome, we performed hybridization with a 5'-specific probe and heteroduplex analysis with long reverse transcribed DNA. A 5' probe was made by purifying a discrete 50 nucleotide-long reverse transcript attached to its tRNA primer. This probe was found to hybridize to RNA of the size of glycoprotein mRNA--21S, poly(A)-containing RNA--indicating that the mRNA could have a 5' leader sequence. The 5'-specific sequences were studied by electron microscopic examination of hybrids between 21S RNA and the two longest discrete cDNA species synthesized in the endogenous reverse transcriptase reaction. One of these species, 8.8 kb long, is only made in the absence of actinomycin D, but it does not contain any self-complementary sequences, and therefore appears to be a complete transcript of the viral genome. The shorter of the two species, 8.2 kb long, is synthesized whether or not actinomycin D is present; it must terminate 500--600 nucleotides internal to the 5' end of the template RNA. The structures observed in heteroduplexes of 21S RNA and these DNAs indicated the presence of a leader sequence approximately 500 nucleotides long at the 5' end of the 21S RNA. Sequences comprising this leader segment in the 21S RNA mapped at the 5' end of the genome RNA; the rest of the 21S RNA consisted of sequences from the 3' portion of the genome. Analysis of heteroduplexes with 8.2 kb DNA suggested that actinomycin D could block the reverse transcription of most of the sequence in the genome RNA that appears as a leader in the 21S RNA.
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PMID:Analysis of a 5' leader sequence on murine leukemia virus 21S RNA: heteroduplex mapping with long reverse transcriptase products. 7 33

The interaction of tRNA with the reverse transcriptase (RNA-dependent DNA polymerase) of mammalian RNA viruses, such as Moloney murine leukemia virus and simian sarcoma virus, has been studied. Whereas the purified reverse transcriptase of mammalian viruses sedimented in glycerol gradients as a globular protein with a molecular weight of 70,000, after interaction with tRNA the enzyme cosedimented with a protein of 150,000 molecular weight. The twofold increase in molecular weight could be a result of either two reverse transcriptase molecules complexed with a tRNA or, alternatively, several tRNA molecules bound to a single enzyme polypeptide. The enzyme complexes were dissociated in part upon degradation of the tRNA moiety by pancreatic RNase A. The reverse transcriptase released from virions of Moloney murine leukemia virus, simian sarcoma virus, and avian myeloblastosis virus, by nonionic detergent, migrated faster on glycerol gradients than purified enzyme preparation. This phenomenon was probably due to complex formation between part of the virion enzyme and the tRNA, which is endogenous in virions. Addition of exogenous tRNA was needed, however, to quantitatively complex all the virion reverse transcriptase of Moloney murine leukemia virus and simian sarcoma viruses. The reverse transcriptase of Moloney murine leukemia virus did not show tRNA species specificity in the binding reaction when glycerol gradients were used for assay. Thus, several tRNA species of Escherichia coli, yeast, chicken, and rat origin were able to complex with the enzyme. The species specificity in the interaction between tRNA and avian myeloblastosis virus reverse transcriptase was also examined. We demonstrated that under our experimental conditions, this enzyme binds different tRNA species of E. coli and yeast as well as tRNA of chicken origin.
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PMID:Binding of tRNA to reverse transcriptase of RNA tumor viruses. 7 7

Fv-1b restriction in BALB/3T3 cells is temporarily abrogated following infection with N-tropic murine leukemia virus. The mechanism of this phenomenon was investigated by comparing the inactivation rates for viral infectivity and for the ability of the same virus to abrogate Fv-1 restriction. Inactivation of the abrogating ability of N-tropic murine leukemia virus following graduated doses of gamma radiation proceeded at half the rate of that for viral infectivity. This result indicates that viral RNA must function in abrogating Fv-1b restriction but that only a portion of the viral genome is required. The inactivation kinetics of N-tropic murine leukemia virus were also determined following incubation of virus at 43 degrees C. Abrogating ability of N-tropic murine leukemia virus was found to be about six times as stable under these conditions as was viral infectivity. Interestingly, virion-associated reverse transcriptase activity was inactivated at the same rate as was viral infectivity, indicating that this enzyme may not need to function during abrogation. Virus heated at 43 degrees C was used to study the kinetics of the abrogation phenomenon itself. Abrogation was shown to be transient, requiring 6 to 9 h after virus infection to become maximally effective and beginning to disappear after about 18 h. The data reported here confirm the idea that abrogation of Fv-1 restriction can be separated experimentally from virus replication, and they raise the possibility that a separate biochemical pathway exists for incoming viral RNA in Fv-1 restrictive cells.
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PMID:Abrogation of Fv-1b restriction with murine leukemia viruses inactivated by heat or by gamma irradiation. 7 8

Moloney murine leukemia virus was harvested automatically within 60 min of release from chronically infected NIH/3T3 cells (clone 1) cultured on bundles of synthetic capillaries. Production of virus as measured by a determination of reverse transcriptase activity and by the XC syncytia assay demonstrated that highly infectious "rapid-harvest" virus was recovered from NIH/3T3 cells (clone 1) grown for periods of up to 10 days.
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PMID:Production of "rapid-harvest" Moloney murine leukemia virus by continuous cell culture on synthetic capillaries. 7 13

Continuous lines were obtained from primary cultures of BALB/C mouse embryo cells which were found by electron microscope and reverse transcriptase reaction to produce permanently oncoronavirus type C after exogenous infection with Rauscher leukemia virus (RLV). Sindbis virus (SV) was inoculated into virogenic cultures 398 days after infection with RLV. The system in characterized by rapid (3-21 days) disappearance of the infectious arbovirus from the medium and the cells, long-term (over 5 months) persistence on SV noninfectious antigen and signs of stimulation of oncornavirus activity. The level of reverse transcriptase activity in cultures in the presence of persisting arbovirus was 1.5-3.3-fold higher than in cultures infected with RLV alone. Two variants of the course of mixed chronic infection of the cultures with oncornavirus and arbovirus differing in the rate of transition of the arbovirus into the noninfectious form and inhibition or stimulation of oncornavirus functions are discussed.
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PMID:[Persistence of the Sindbis virus in cultures producing oncornavirus]. 7 89

Murine leukemia virus mutants ts3 (Moloney) and ts24 (Rauscher) both formed late-budding structures on the cell membrane at restrictive temperature. They both accumulated core polyproteins Pr65gag and Pr180gag-pol in cell membranes, but the envelope precursor was rapidly turned over. After shift to permissive temperature in the presence of cycloheximide, the accumulated precursors were sequentially cleaved via discrete intermediates both during the final stages of the budding process and in newly released virions to yield the finished virion core proteins and reverse transcriptase. The precursor form of reverse transcriptase was not enzymatically active and became activated partially or entirely inside released virions.
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PMID:Relationship of retrovirus polyprotein cleavages to virion maturation studied with temperature-sensitive murine leukemia virus mutants. 7 89

The mode of action of interferon in JLSV 5-cells, chronically infected with Rauscher murine leukemia virus (MLV), was studied by examining the fate of preexisting labelled viral RNA in interferon-treated cells and by determining the infectivity/physical particle ratio of cell-associated and extracellular virus. Interferon added together with 3H-uridine inhibited the production of labelled virus particles even when it was only allowed to act after all viral RNA synthesis had been stopped by actinomycin D. This indicated that the interferon-induced antiviral state primarily functions at a posttranscriptional step. When interferon was given after a 3H-uridine pulse label and arrest of label incorporation by glucosamine and unlabelled uridine, it prevented a portion of the preexisting radioactive RNA from occurring in extracellular particles. However, part of the labelled viral RNA had reached a stage beyond which interferon could not prevent it from occurring in extracellular virus particles. The notion that interferon primarily affects release of fully assembled and enveloped MLV particles may be eliminated: interferon-treatment did not affect the release of particle-bound reverse transcriptase in cells treated with cycloheximide after the antiviral state had been established. It was confirmed that interferon-treated JLSV 5-cells contained an increased number of virus particles associated with the cell membrane. However, these particles were found to have a reduced infectivity compared to those associated with control cells, thus confirming the view that virions produced by interferon-treated cells are defective; perhaps lacking in certain components.
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PMID:Interferon inhibits C-type virus at a posttranscriptional, prerelease step. 7 9

Poly (2-methylthioinosinic acid) [poly(ms2I)] was found to markedly inhibit the RNA directed DNA polymerase (reverse transcriptase) activity of murine (Moloney, Rauscher) leukemia virus and murine (Moloney) sarcoma virus, while under the same conditions the unsubstituted parent compound poly(I) showed little, if any, inhibitory effect. Copolymers of inosinic acid (I) and 2-methylthioinosinic acid2(ms2I) showed an intermediary effect, depending on the I:ms2I ratio. Poly(ms2I) also inhibited the transformation of normal cells by murine (Moloney) sarcoma virus, as assessed by an infectious center assay.
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PMID:Inhibition of oncornavirus functions by poly (2-methylthioinosinic acid). 7 96

Clones of cells were isolated from single virus-single cell infections of NIH/3T3 cells with Moloney murine leukemia virus. Approximately one third of such clones aberrantly expressed viral gene functions. One clone produced virus with altered plaque morphology, while others failed to produce particles able to make plaques on XC cells. In addition, clones that made particles lacking reverse transcriptase were found, and these did not synthesize the reverse transcriptase precursor Pr180 gag-pol. One clone (M23) lacked any detectable glycoprotein or reverse transcriptase. Despite these defects, each clone released particles of type C morphology, suggesting that gag gene function alone may be sufficient for particle production. All the particles contained viral RNA of 60-70S that was composed of the normal 35S size subunits except for M23, which had a deletion in the viral genome of approximately 1000-1500 nucleotides. A variety of defective clones were also isolated following infection of rat cells with Moloney virus. It is apparent that the murine leukemia virus genome is ofter mutated by spontaneous processes generating a wide range of phenotypes.
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PMID:High frequency of aberrant expression of Moloney murine leukemia virus in clonal infections. 8 Feb 81

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