EC:2.7.7.48 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The RNA-dependent RNA polymerase (replicase) of encephalomyocarditis (EMC) virus was found to be closely associated with the smooth membranes of infected BHK-21 cells. An RNA-dependent EMC replicase was extracted from the membranes with 0.15% sodium dodecyl sulfate (SDS) and 1,1,2-trichlorotri-fluoroethane (Genetron 113) and further purified by high-salt dextran-polyethylene glycol phase separation, sievorptive chromatography, and glycerol gradient sedimentation. The enzyme does not manifest strict specificity toward EMC RNA template. It can use also Qbeta RNA, rRNA of BHK cells, or poly(C). SDS-polyacrylamide gel electrophoresis of purified EMC replicase labeled with radioactive methionine revealed that, of all the stable EMC proteins, the enzyme contains predominantly the 56,000-dalton (E) polypeptide.
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PMID:Isolation and properties of the replicase of encephalomyocarditis virus. 0 14

The presence of an RNA-dependent RNA polymerase is demonstrated in purified rotavirus particles. Optimum polymerase activity was found between 45 to 50 degrees C, at pH 8, and in the presence of 10 mM-magnesium ions. The polymerase product was highly sensitive to pancreatic RNase (97%) in low or high salt concentration. The enzyme was activated by EDTA treatment of intact particles or heat shock. The similarities between reovirus, blue-tongue virus and rotavirus polymerases are discussed.
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PMID:Ribonucleic acid polymerase activity associated with purified calf rotavirus. 2 Dec 25

Reverse transcriptase and p30 were purified from various retroviruses and the intra- and interspecific interaction between the two proteins were studied. The intraspecific complex stimulates [3H]TMP incorporation into (dT)12.(rA)n severalfold above that of the enzyme itself whereas DNA synthesis in the presence of the interspecific complex can stimulate DNA synthesis about 1.5-fold. The sedimentation rate value of the intraspecies complex varies between 12 and 16 S with an estimated molecular weight of 400,000. The molar ratio of p30:reverse transcriptase within the complex is 8:1. Both complexes can be dissociated into their original protein components by exposure to salt (kcl) solution, except that 0.3 M KCl will dissociate the interspecies complex whereas 0.8 M KCl is required for dissociation of the intraspecies complex. Competition studies in which an interspecies complex was exposed to p30 autologous to reverse transcriptase within the complex resulted in the displacement of the heterologous (p30) protein and the formation of a new intraspecific complex.
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PMID:Effect of RNA tumor virus-specific protein p30 on reverse transcriptase. Intraspecies and interspecies interaction between reverse transcriptase and p30. 8 36

Ten aminoacyl transfer RNA's prepared from human malignant trophoblastic cells (BeWo line) were compared with the corresponding aminoacyl transfer RNA's from normal human chorionic tissue by cochromatography on a RPC-5 column. Phenylalanyl transfer RNA (Phe-tRNA) of BeWo cells had, in addition to the single species of Phe-tRNA found in normal chorionic tissues, an early eluting component. When Phe-tRNA from the chorion was exposed to mild acid, which selectively excises the Y base, it eluted in the same position as the early eluting Phe-tRNA of BeWo cells. Therefore, the BeWo Phe-tRNA is partially undermodified. Tyrosyl transfer RNA of BeWo cells exhibited a broad-based peak which eluted later than the normal and probably consists of two or more tyrosyl transfer RNA's. Seryl transfer RNA of BeWo cells showed two peaks of acceptor activity, while seryl transfer RNA of normal chorion had a third peak that eluted at a higher salt concentration. In addition, in an early eluting methionyl and lysyl transfer RNA and in a late eluting arginyl transfer RNA from BeWo cells and normal charion, quantitative alterations were detected. The remaining four transfer RNA's, leucyl, aspartyl, valyl, and histidyl, from the two sources did not show any significant differences in elution profiles. These alterations of the chromatographic profile appeared to be due to new or altered species of transfer RNA. They were not due to differences in the aminoacyl transfer RNA synthetase. The transfer RNA methyltransferase capacity of the enzymes from BeWo cells was 2-fold higher than that of the enzymes extracted from the chorion.
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PMID:Changes in transfer RNA's in human malignant trophoblastic cells (BeWo line). 17 10

The L and NS proteins of vesicular stomatitis virions (New Jersey serotype) were solubilized with Triton X-100 and high-salt buffer and recombined with purified nucleocapsids under conditions similar to those used to reconstitute transcriptase activity in vitro. The nucleocapsid-bound L and NS proteins were separated from unbound proteins on a glycerol gradient. The rebinding of L and NS proteins mimics the in vivo binding in that at saturation the ratio of L and NS molecules to N molecules is approximately the same as observed in the intact virion. L and NS proteins were separated and added back independently and in combination to the template. The purified NS protein bound to the template in the absence of L protein. However, the L protein binding appeared to depend on the presence of NS protein. The presence of Mg2+ and nucleotides, which is required for transcription, was not necessary for the rebinding of L and NS proteins.
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PMID:Rebinding of transcriptase components (L and NS proteins) to the nucleocapsid template of vesicular stomatitis virus. 21 81

Pulse-chase labeling and cell fractionation were used to examine the pathways taken by the three nucleocapsid polypeptide species of vesicular stomatitis virus into nucleocapsids and then into virions. An improved method of polyacrylamide gel electrophoresis resolved nucleocapsid polypeptides N and NS from cellular actin, facilitating accurate quantitation of the viral polypeptides. Contrary to previous belief, the rate of NS synthesis was found to be a constant fraction of total virus protein synthesis throughout infection, indicating a consistent mechanism of virus protein synthesis regulation. In the kinetic studies, each polypeptide species displayed the following characteristic behavior. (i) Structural polypeptide N was the only species that entered a metabolically active soluble pool before assembly into nucleocapsids. The size of this pool increased with time after infection, causing an increasing delay in the appearance of pulse-labeled N molecules in nucleocapsids. (ii) Throughout infection, the entire complement of L molecules entered nucleocapsids immediately after their synthesis, without diversion through a soluble pool. (iii) Although 75% of newly synthesized molecules of the transcriptase-associated protein NS entered a soluble pool, they never emerged from the compartment. At all times after infection, about 25% of the NS molecules bypassed the soluble pool and entered nucleocapsids directly after their synthesis, as if in concert with L. These results indicate that VSV nucleocapsid assembly in vivo is a stepwise process, comprising an initial condensation of N with the viral RNA, followed by attachment of L and NS, analogous to the stepwise assembly of Sendai virus nucleocapsids. (D. W. Kingsbury, C.-H. Hsu, and K. G. Murti. Virology 91:86-94, 1978). About half of the intracellular nucleocapsids were recovered in a form that sedimented at anomalously low centrifugal forces, reflecting an association with large cellular organelles. This attachment was mediated mainly by electrostatic forces, since these "bound" nucleocapsids were released by elevated salt concentrations. The kinetic behavior of nucleocapsid polypeptides was the same in both fractions, providing no evidence for a division of nucleocapsid functions between cellular compartments.
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PMID:Assembly of vesicular stomatitis virus nucleocapsids in vivo: a kinetic analysis. 23 81

The RNA-dependent RNA polymerase associated with rice stripe virus was dissociated from viral RNA (vRNA) by CsCl centrifugation. The solubilized RNA-free RNA polymerase transcribed a model RNA template 50 nucleotides in length carrying the 5'- and 3'-terminal conserved sequences of all four genome RNA segments. A 3'-terminal half molecule of the model template was also active as a template. Hence, we propose that the 3'-terminal conserved sequence serves as a promoter for the rice stripe virus-associated RNA polymerase. The solubilized enzyme, however, was unable to transcribe vRNA. The failure of the solubilized enzyme to transcribe vRNA is discussed in relation to the apparent loss of RNA polymerase activity after treatment of virions with high concentrations of salt.
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PMID:Solubilization and promoter analysis of RNA polymerase from rice stripe virus. 152 54

The transcriptase associated with Germiston virus was assayed in an in vitro reaction in which transcription was coupled to translation by adding reticulocyte lysate under the appropriate salt conditions. When analyzed in polyacrylamide gels, the major transcripts migrated like authentic S mRNAs and possessed 12- to 18-base-long nontemplated 5' extensions similar to the 5' end of viral mRNAs. These transcripts were functional for the synthesis of at least proteins N and NSS. When translation was inhibited by adding protein synthesis inhibitors such as puromycin, cycloheximide, and anisomycin, a drastic inhibitory effect was observed on the synthesis of the complete S mRNA transcripts. However, initiation and part of the elongation process were still active, since short and incomplete RNA molecules with RNA primers at their 5' ends were synthesized. On the other hand, we found that edeine, another inhibitor of protein synthesis, stimulated not only synthesis of S mRNAs but also that of the full-length S cRNAs. Taking into account the mode of action of this antibiotic, we discuss the results, which emphasize the crucial role of active ribosomes during bunyavirus transcription and confirm the observations reported on La Crosse virions. Moreover, we showed that the RNA transcripts synthesized in a transcription-translation reaction were capped and that most of them have acquired the 5' terminal sequences of the alpha- or beta-globin mRNA.
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PMID:Germiston virus transcriptase requires active 40S ribosomal subunits and utilizes capped cellular RNAs. 173 Nov 8

The 447 male sterility trait in Vicia faba is strictly correlated with the presence of well-defined membranous vesicles or 'cytoplasmic spherical bodies' not found in fertile isogenic maintainer plants, and by the occurrence of a discrete high molecular weight double-stranded RNA. We have purified these cytoplasmic membranous vesicles and find that they contain the dsRNA together with an RNA-dependent RNA polymerase whose activity depends upon the presence of Mg2+, requires the four-nucleoside triphosphates and is unaffected by inhibitors of cellular transcriptases, e.g. alpha-amanitin and Actinomycin D. The dsRNA can be labelled in vitro by incubating the cytoplasmic vesicles with radioactive NTPs, and the RNA synthesized in vitro is also in a double-stranded form as judged by its resistance to RNase digestion at high salt and its behaviour upon CF-11 chromatography. Treatment of the vesicles with a non-ionic detergent releases the dsRNA in the form of a complex with the RNA-dependent RNA polymerase. The enzyme can still carry out the specific synthesis of dsRNA in these solubilized complexes. The cytoplasmic vesicles therefore isolate this vertically transmitted, self-replicating dsRNA from the cellular milieu: the possible mode of action and relevance of this novel genetic element to the 447 cytoplasmic male sterility trait are discussed.
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PMID:The double-stranded RNA associated with the '447' cytoplasmic male sterility in Vicia faba is packaged together with its replicase in cytoplasmic membranous vesicles. 210 29

The matrix protein (M1) of influenza A virus, which has a critical role in viral assembly and can inhibit the viral transcriptase complex, has the ability to bind RNA. The RNA-binding property of M1 is specific for single-stranded RNA, like that of influenza nucleoprotein (NP) and shows similar sensitivity to pH and to salt concentration. M1:RNA complexes are stable, once formed, to competition from excess single-stranded RNA. The possible location of the RNA-binding regions in the M1 protein is discussed.
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PMID:RNA-binding properties of influenza A virus matrix protein M1. 247 6

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