EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The response of mouse L cells to infection with wild-type (wt) and temperature-sensitive (ts) mutants of vesicular stomatitis virus was monitored by sodium dodecyl sulfate-polyacrylamide gel electrophoresis to delineate the synthesis of host cell and viral proteins. Experiments utilized transcriptase mutants of complementation group I (ts114 and ts13), a group IV mutant (ts44) that is restricted in total RNA synthesis (RNA-1) but not in primary transcription, and a group II mutant (ts52) variably restricted in RNA synthesis (RNA +/-). L cells infected with ts mutants at permissive temperature exhibited the wt response of progressive inhibition of host cell protein synthesis accompanied by accumulation of all five viral proteins. Mutant ts44 (IV) also switched off cell protein synthesis at restrictive temperature and accumulated all five viral proteins, but with disproportionate ratios of N and G proteins. At restrictive temperature, cells infected with group I ts mutants failed to accumulate any viral protein and did not exhibit significant reduction in host cell protein synthesis. These data suggest that vesicular stomatitis virus inhibits cell protein synthesis at a stage of viral infection after transcription and possibly translation but preceding replication of progeny viral RNA.
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PMID:Differential inhibition of host protein synthesis in L cells infected with RNA - temperature-sensitive mutants of vesicular stomatitis virus. 17 96

Infection of mouse myeloma (MPC-11) cells with vesicular stomatitis virus resulted in rapid loss in activity of cellular RNA polymerases associated with nuclear chromatin. No RNA polymerase inhibitor could be detected in extracts of infected cell nuclei. Reconstitution experiments with solubilized RNA polymerases dissociated from chromatin of infected and uninfected cells demonstrated that vesicular stomatitis viral infection did not affect the ability of the polymerases to function on endogenous or exogenous templates; nor did infection alter the template capability of the chromatin. Measurement of the number of actively growing RNA chains revealed that infected cell nuclei contained fewer active polymerase units; however, the rates of RNA chain elongation were the same in nuclei from infected and uninfected cells. Quantitation of the number of polymerase units active in nuclear chromatin revealed that the alpha-amantin-sensitive polymerase II was more severely reduced by viral infection than were polymerases I and III.
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PMID:Vesicular stomatitis virus infection reduces the number of active DNA-dependent RNA polymerases in myeloma cells. 22 70

The RNA-dependent RNA polymerase induced in BHK 21 cells by infection with foot-and-mouth disease virus has been isolated from the replication complex. It contains a major, virus-coded protein with mol. wt. 56 000 which appears from serological studies and tryptic peptide mapping to be the same as the virus infection associated (VIA) antigen and the protein P56 found in cells infected with the virus. Other virus coded proteins and a host cell protein were present in the partially purified replication complex but were removed by digestion with ribonuclease T1, leaving only the major virus coded protein. The tryptic peptide maps of the VIA antigen of the seven serotypes of the virus were similar, suggesting a high level of conservation in that region of the genome coding for the RNA polymerase of each type.
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PMID:Purification and identification of the RNA-dependent RNA polymerase of foot-and-mouth disease virus. 23 34

Friend murine leukemia virus induces splenic enlargement and an increase in RNA polymerase activity of spleen nuclei. Actinomycin D, administered at 60 mug/kg body weight/day prevents the development os splenomegaly and the elevation of polymerase activity following infection, but it has only a slight effect on the production of virus in spleen tissue. Thus, the alteration of RNA synthesis is not a result of virus proliferation, but instead may be a manifestation of leukemic erythropoiesis. Normal erythropoiesis, stimulated by erythropoietin administration, produces a similar but transient increase in RNA polymerase activity in spleen nuclei. Erythropoietin administered before, but not after, Friend virus infection results in an enhancement of RNA polymerase activity, as measured 9 days after inoculation. This effect is most simply explained by assuming that there is a common target cell pool for both erythropoietin and Friend virus, and that this pool becomes refractory to the influence of the hormone as a result of the leukemic process.
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PMID:Role of cellular RNA polymerases in virus-induced leukemogenesis. 114 21

We have studied the initiation of transcription in vitro by RNA polymerase II on simian virus 40 (SV40) minichromosomal templates isolated from infected cells. The efficiency and pattern of transcription from the chromatin templates were compared with those from viral DNA templates by using two in vitro transcription systems, either HeLa whole-cell extract or basal transcription factors, RNA polymerase II, and one of two SV40 promoter-binding transcription factors, LSF and Sp1. Dramatic increases in numbers of transcripts upon addition of transcription extract and different patterns of usage of the multiple SV40 initiation sites upon addition of Sp1 versus LSF strongly suggested that transcripts were being initiated from the minichromosomal templates in vitro. That the majority of transcripts from the minichromosomes were due to initiation de novo was demonstrated by the efficient transcription observed in the presence of alpha-amanitin, which inhibited minichromosome-associated RNA polymerase II, and an alpha-amanitin-resistant RNA polymerase II, which initiated transcription in vitro. The pattern of transcription from the SV40 late and early promoters on the minichromosomal templates was similar to the in vivo pattern of transcription during the late stages of viral infection and was distinct from the pattern of transcription generated from viral DNA in vitro. In particular, the late promoter of the minichromosomal templates was transcribed with high efficiency, similar to viral DNA templates, while the early-early promoter of the minichromosomal templates was inhibited 10- to 15-fold. Finally, the number of minichromosomes competent to initiate transcription in vitro exceeded the amount actively being transcribed in vivo.
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PMID:In vitro initiation of transcription by RNA polymerase II on in vivo-assembled chromatin templates. 131 66

We present evidence that the formation of NP-P and P-L protein complexes is essential for replication of the genome of Sendai defective interfering (DI-H) virus in vitro, using extracts of cells expressing these viral proteins from plasmids. Optimal replication of DI-H nucleocapsid RNA required extracts of cells transfected with critical amounts and ratios of each of the plasmids and was three- to fivefold better than replication with a control extract prepared from a natural virus infection. Extracts in which NP and P proteins were coexpressed supported replication of the genome of purified DI-H virus which contained endogenous polymerase proteins, but extracts in which NP and P were expressed separately and then mixed were inactive. Similarly, the P and L proteins must be coexpressed for biological activity. The replication data thus suggest that two protein complexes, NP-P and P-L, are required for nucleocapsid RNA replication and that these complexes must form during or soon after synthesis of the proteins. Biochemical evidence in support of the formation of each complex includes coimmunoprecipitation of both proteins of each complex with an antibody specific for one component and cosedimentation of the subunits of each complex. We propose that the P-L complex serves as the RNA polymerase and NP-P is required for encapsidation of newly synthesized RNA.
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PMID:Complexes of Sendai virus NP-P and P-L proteins are required for defective interfering particle genome replication in vitro. 132 Dec 76

Carcinogen-induced expression of the integrated viral genome was examined on SV40-transformed Chinese hamster cells. Carcinogen treatment markedly increased the transcription rate and the steady state mRNA level of both early and late viral transcripts. Carcinogen-induced transcription was mediated by RNA polymerase II. The increase in viral gene expression was also detected at the protein level, although at a reduced amplitude. Enhanced transcription was apparent as early as 12 hr postexposure and was considerably elevated after 24-36 hr. The increased gene expression depended on the existence of a functional replication machinery, as indicated by two lines of evidence. First, a cell line that harbors origin-deleted SV40 failed to respond to carcinogen treatment by increasing transcription and expression of T antigen. Furthermore, carcinogen-induced overtranscription was inhibited by aphidicolin, an inhibitor of DNA polymerase alpha. The involvement of the replication apparatus in the enhanced expression points to mechanistic similarities between the carcinogen-induced viral gene expression in the drug-treated semipermissive cells and the SV40 lytic pathway under permissive conditions. It is therefore suggested that cellular permissivity to viral development is enhanced following exposure to carcinogens. The implications of these findings for the nature of cellular permissivity to viral infection and the synergistic effects of carcinogens and tumor viruses are discussed.
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PMID:Carcinogen-induced activation of SV40 gene expression in a semi-permissive environment. 132 84

A method using the RNA polymerase chain reaction technique to diagnose infection retrospectively using single-stranded RNA enteroviruses in paraffin-embedded tissue blocks is reported. This method takes advantage of extreme sequence conservation in the 5' untranslated region of the enteroviral genome and uses two rounds of amplification with nested oligonucleotide primers, thus allowing rapid diagnosis without the use of radioactive reagents. The technique should prove useful in cases in which viral infection is suspected after histopathologic evaluation, when fresh or frozen tissues often are unavailable. The sensitivity of the method is demonstrated by successful amplification of Enterovirus 11 RNA extracted from 4-year-old liver tissue obtained at autopsy examination that was initially fixed and embedded 45 hours after death.
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PMID:Detection of enteroviral infection in paraffin-embedded tissue by the RNA polymerase chain reaction technique. 165 80

It is proposed here that a form of intracellular immunity can be devised which would protect cells from virus infection and, in particular, could be used as a treatment for the human immunodeficiency virus (HIV) infected individual. Following in vitro immunization of naive human B lymphocytes with reverse-transcriptase (RT) or HIV transactivator protein (tat), messenger RNA (mRNA) would be isolated from these cells. Using the mRNA molecules as templates, copy DNA (cDNA) molecules encoding the RT or tat-specific immunoglobulins, are prepared and amplified by the polymerase chain reaction. After engineering of the antibody encoding cDNAs to provide appropriate intracellular addressing information, the cDNAs would be used to transfect stem cells of HIV infected individuals in vitro. The presence, in the cytoplasm and nucleus, of antibodies which had been selected to interfere with the reproduction of the virus, would protect these cells from infection. Autologous transplantation of such cells would confer resistance against HIV replication by these stem cells and their progeny in the treated individual. Such a strategy may also be useful against other retroviruses and could provide resistance against retrovirally triggered leukemia.
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PMID:A putative approach for gene therapy against human immunodeficiency virus (HIV). 169 89

Full-length cDNA of beet western yellows virus genomic RNA has been cloned behind the bacteriophage T7 RNA polymerase promoter of the transcription vector BS(-). The in vitro run-off transcription product obtained in the presence of T7 RNA polymerase and m7GpppG cap has the same messenger properties as natural viral RNA in in vitro translation systems. The full-length transcript was also able to infect Chenopodium quinoa protoplasts inoculated by electroporation. Infection could be followed by the appearance of viral coat protein in the inoculated protoplasts and the de novo synthesis of viral RNA. Site-directed mutagenesis experiments revealed that expression of beet western yellows virus open reading frame 1 and the C-terminal portion of open reading frame 6 were not required for infection of protoplasts. Additional experiments with these mutants and mutants in the other viral open reading frames should provide information concerning the requirements for beet western yellows virus replication and, ultimately, the role of virus genes in other important steps in the virus infection cycle, such as aphid transmission.
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PMID:Synthesis of full-length transcripts of beet western yellows virus RNA: messenger properties and biological activity in protoplasts. 172 97

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