EC:2.7.7.48 - FACTA Search

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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)

It is clear from previous studies that host transcriptase or RNA polymerase II (pol II) has a role in poxvirus replication. To elucidate the participation of this enzyme further, in this study we examined several parameters related to pol II during the cycle of vaccinia virus infection in L-strain fibroblasts, HeLa cells, and L6H9 rat myoblasts. Nucleocytoplasmic transposition of pol II into virus factories and virions was assessed by immunofluorescence and immunoblotting by using anti-pol II immunoglobulin G. RNA polymerase activities were compared in nuclear extracts containing crude enzyme preparations. Rates of translation into cellular or viral polypeptides were ascertained by labeling with [35S]methionine. In L and HeLa cells, which produced vaccinia virus more abundantly, the rates of RNA polymerase and translation in controls and following infection were higher than in myoblasts. The data on synthesis and virus formation could be correlated with observations on transmigration of pol II, which was more efficient and complete in L and HeLa cells. The stimulus for pol II to leave the nucleus required the expression of both early and late viral functions. On the basis of current and past information, we suggest that mobilization of pol II depends on the efficiency of vaccina virus replication and furthermore that control over vaccinia virus production by the host is related to the content or availability (or both) of pol II in different cell types.
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PMID:Relationship between RNA polymerase II and efficiency of vaccinia virus replication. 264 21

The two variants of influenza A/Victoria/35/72 (H3N2) virus resistant simultaneously to remantadine, deitiforin, adapromine and amantadine were obtained while passaging the virus in presence of remantadine or deitiforin. Both variants differed from the parental strain in optimal pH for hemolysis, transcriptase activity and in amino acid sequence of M2 protein. Maximal hemolytic activity of the parental strain is registered at pH 5.2, for the variants cultured in the presence of remantadine or deitiforin at pH 5.5 and 5.8, respectively. In contrast to NH4OH, remantadine and deitiforin do not exert inhibition of virus-induced hemolysis. Transcriptase activity of resistant variants is about 50% higher as compared with parental strain (enzyme source--whole virus particles or RNP). The M2 protein of the remantadine variant has 2 amino acid substitutions: 31 (Ser----Asn) and 59 (Met----Leu); the deitiforin variant has 3 substitutions: 14 (Met----Leu), 30 (Ala----Val) and 59 (Met----Leu). The phenotypic resistance of the virus seems to be determined by the mutations in the hydrophobic protein region (30,31); the other substitutions (14,59) may modify conformational structure and functional activity of the viral proteins.
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PMID:[The change in functional activity and primary structure of the M2 protein in variants of the influenza virus resistant to remantadine and deitiforin: common and individual differences from the original strain]. 281

The cytoplasmic polyhedrosis virus of the silkworm, Bombyx mori, contains a ten-segmented, double-stranded RNA genome and five species of polypeptides, V1 (Mr 146,000), V2 (Mr 140,000), V3 (Mr 128,000)), V4 (Mr 62,000), and V5 (Mr 32,000). The virus contains an RNA-dependent RNA polymerase that transcribes the duplex genome RNA to form mRNA either in the infected animals or under appropriate conditions in vitro. We co-microinjected the virus, [alpha-32P]GTP and actinomycin D into oocytes of the frog, Xenopus laevis, and found that at least eight species of mRNA were formed in the oocytes. Virus-injected oocytes were labeled with [35S]methionine and cell extracts were treated with rabbit anti-cytoplasmic polyhedrosis virus immunoglobulin G. Analysis of the immunoprecipitates by sodium dodecyl sulfate polyacrylamide gel electrophoresis revealed that V1, V2, and V3 were produced in the virus-injected oocytes whereas V4 and V5 were not. By injecting the separated double-stranded genome segments immediately after heat-denaturation into oocytes, it was found that V1 was coded for by segment 1 with a chain length of 4.2 kilobase pairs, V2 by segment 2 or 3, whose chain lengths are both 4.0 kilobase pairs, and V3 by segment 4 with a chain length of 3.2 kilobase pairs. These results demonstrate that the Xenopus oocyte is a very useful system for the coupled transcription-translation of double-stranded RNA viruses.
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PMID:Coupled transcription-translation of silkworm cytoplasmic polyhedrosis virus injected into oocytes of the frog, Xenopus laevis. 328 14

1. Methionyl-t-RNA synthetase (where t-RNA denotes ;soluble' or transfer RNA) has been purified to apparent homogeneity from a ribonuclease I-free strain of Escherichia coli. Polyacrylamide-gel electrophoresis of the final product revealed a single band. The purified enzyme catalyses the exchange of 450mumoles of pyrophosphate into ATP/mg. in 15min. at 37 degrees . 2. Methionyl-t-RNA synthetase is specific for the l-isomer of methionine, but appears to catalyse the methionylation of two distinct species of t-RNA, both of which are specific for methionine, but only one of which may be subsequently formylated. 3. The Michaelis constant for l-methionine is 2x10(-4)m in the ATP-PP(i) exchange assay and 2x10(-5)m for the acylation of t-RNA. 4. Gel filtration of both crude and highly purified preparations of methionyl-t-RNA synthetase on Sephadex G-200 indicates that the active species of enzyme has a molecular weight of about 190000. The amino acid composition of the enzyme is similar to those reported for the isoleucine and tyrosine enzymes from E. coli.
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PMID:Purification and properties of methionyl-transfer-ribonucleic acid synthetase from Escherichia coli. 429 17

Previous data demonstrated that reovirus mRNA, synthesized in vitro with the particulate RNA transcriptase of reovirus cores, efficiently directs the synthesis of polypeptides in vitro. The present studies indicate that all of the three size classes of reovirus mRNA produced in vitro can form protein initiation complexes with rat liver [(36)S]Met-tRNA(F) and incubated 40S and 60S ribosomal subunits, which had been washed in 0.5 M KCl of mouse fibroblast L-929 cells. Mild prior treatment of the mRNA with HCHO was required to expose the initiator region. The initiation complex reacted quantitatively with puromycin to form a puromycin peptide, whose electrophoretic properties were identical to methionyl-puromycin formed in response to poly(A,G,U) or the initiator codon AUG. The complex was relatively stable and specific for [(35)S]Met-tRNA(F); rat liver [(35)S]Met-tRNA(M) was unreactive unless the supernatant factors EF T(1) and EF T(2) were also present. However, the addition of fusidic acid, at a concentration that did not affect complex formation with [(35)S]Met-tRNA(F), completely inhibited Met-tRNA(M) utilization. Exogenous ribosomal factors and GTP were not required unless the separated 40S and 60S subunits were further treated with 1 M KCl. The data suggest that reovirus mRNA contains AUG initiator codons that form a complex with Met-tRNA(F) at a puromycin-reactive site on ribosomes.
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PMID:Formation of a mammalian initiation complex with reovirus messenger RNA, methionyl-tRNA F , and ribosomal subunits. 450 35

1. The purification of methionyl-transfer-RNA synthetase from Escherichia coli by a modified technique gives a 16% yield of a protein that appears homogeneous by the criteria of disc gel electrophoresis, ultracentrifugation and end-group analysis. 2. The molecular weight is 96000 and the protein consists of two sub-units of 48000, which appear to be identical. The amino acid composition and thiol content are reported. 3. Kinetic data are reported for analogues of methionine and for pure t-RNA(F) and t-RNA(M), which are respectively the methionine transfer RNA that can exist in the formylmethionyl form and the one that can exist only in the methionyl form. The enzyme binds and acylates both species of transfer RNA identically.
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PMID:Sub-unit structure and specificity of methionyl-transfer-ribonucleic acid synthetase from Escherichia coli. 487 71

The presence of an RNA-dependent RNA polymerase was demonstrated in purified infectious pancreatic necrosis virus (IPNV). The enzyme was active in vitro without any pretreatment of the virus. Optimum activity was shown at 30 degrees C, pH 8 and in the presence of 6 mM-magnesium ions. Approx. 50% of the polymerase product remained associated with the dsRNA template of the virions. The remainder was found as extravirion ssRNA broken down to 5S to 7S fragments by virus-associated RNase(s). Although the addition of bentonite considerably reduced the amount of RNA synthesized, it protected the ssRNA product from degradation. This, in turn, permitted the synthesis of small amounts of ssRNA, which when analysed by sucrose gradient centrifugation or polyacrylamide gel electrophoresis behaved identically to the 24S single-stranded virus mRNA produced in infected cells. The virion polymerase was not stimulated by S-adenosyl-L-methionine or the addition of cellular or capped reovirus ssRNA. Several other modifications of the assay system were tried in an attempt to increase 24S RNA synthesis, but with little success. When [3H]uridine-labelled virus was used in the polymerase reaction, some labelled 24S ssRNA was obtained, indicating that in vitro transcription may proceed by a semi-conservative (displacement) mechanism.
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PMID:In vitro RNA synthesis by infectious pancreatic necrosis virus-associated RNA polymerase. 617 31

Ibaraki virus core particles were purified from infected BHK-21 cells. The core particles displayed RNA transcriptase activity while the virion did not. The RNA transcriptase activity was stimulated about 15-fold by addition of S-adenosyl-L-methionine. The reaction product was single-stranded RNA which could be hybridized with heat-denatured Ibaraki virus RNA. The hybrids possessed the same electrophoretic mobility as Ibaraki virus double-stranded RNA.
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PMID:Characterization of ribonucleic acid transcriptase in Ibaraki virus core particles. 618 66

A poliovirus-specific RNA-dependent RNA polymerase was isolated from a cytoplasmic extract of infected HeLa cells and was shown to copurify with a single virus-specific protein. The polymerase was isolated from cells labeled with [35S]-methionine and was fractionated from other soluble cytoplasmic proteins by ammonium sulfate precipitation, phosphocellulose chromatography, gel filtration on Sephacryl S-200, and chromatography on hydroxylapatite. The activity of the enzyme was measured by using either polyadenylic acid or poliovirion RNA as a template in the presence of an oligouridylic acid primer. A single virus-specific protein that had an apparent molecular weight of 63,000 (p63) was found to copurify with this activity. Host-coded proteins were present in reduced molar amounts relative to p63. Noncapsid viral protein 2 (NCVP2) and other viral proteins were clearly separated from p63 by gel filtration on Sephacryl S-200. Polymerase activity coeluted from the column precisely with p63. NCVP2 was totally inactive as an RNA polymerase and did not stimulate the polymerase activity of p63. The purified enzyme sedimented at about 4S on a glycerol gradient and thus appeared to be a monomer of p63. Two-dimensional gel electrophoresis of the polymerase protein indicated that it had an isoelectric point of about 7.5. Thus, the viral polypeptide, p63, as defined by the above physical parameters, is an RNA-dependent RNA polymerase that can copy poliovirion RNA when oligouridylic acid is used as a primer.
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PMID:Identification of poliovirus polypeptide P63 as a soluble RNA-dependent RNA polymerase. 625 35

A temperature-sensitive coordinate mutant tsLA83 of Prague (PR-B) strain of Rous sarcoma virus at the nonpermissive temperature (41 degrees) produces noninfectious virus particles (NI-LA83) which contained only 3% of the reverse-transcriptase activity present in infectious virions. Analyses of [35S]methionine-labeled NI-LA83 showed the presence of all of the viral proteins except reverse transcriptase. Pulse-chase analyses of the virus-specified proteins in cells infected with LA83 or PR-B showed that the gag and glycoprotein precursors, Pr76gag and gPr95env, respectively, were processed at both 35 and 41 degrees. The reverse-transcriptase precursor, Pr180gag-pol, however, was not processed in LA83-infected cells at 41 degrees. In contrast, cells infected with LA83 or PR-B at 35 degrees as well as with PR-B at 41 degrees showed normal cleavage of Pr180gag-pol. A shiftdown of LA83-infected cells at 41 degrees to the permissive temperature 35 degrees resulted in the normal processing of Pr180gag-pol and production of infectious virus containing reverse transcriptase. Electron microscopic analysis showed that at 41 degrees cells infected with LA83 showed a large number of budding structures but fewer released particles. A shiftdown from 41 to 35 degrees resulted in an increase of virus particles with a concomitant decrease in budding structures suggesting that the processing of reverse-transcriptase precursor is related to virion assembly.
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PMID:Impaired cleavage of the joint gag-pol polyprotein precursor and virion assembly in a temperature-sensitive mutant of Rous sarcoma virus. 633 Sep 81

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