Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Human cells derived from both normal and neoplastic tissues can be infected by Mason-Pfizer monkey virus (MPMV) without accompanying cytopathology. Infection of cell cultures such as human rhabdomyosarcoma (A204) results in a persistenly infected cell line which can be subcultured over 30 sequential culture passages without significant change in phenotype properties according to reverse, transcriptase (RT), MPMV p27 antigen content, virus particle count and infectivity titre. Productive virus infections were established at relatively low virus particle (VP) input multiplicities (p.i.m.; about 0.06 VP/cell) In A204 cell cultures. At higher p.i.m. (about 600 to 6000 VP/cell) newly synthesized virus was detected within 4 days post infection. Although virus production was cumulative following primary infection, after subculture of infected cultures MPVM production was greater during active cell division. Using synchronization techniques, MPMV replication in persistently infected cultures was found to be cell cycle-dependent. The major internal antigen, p27, was synthesized in G2 and newly synthesized virus particles were released predominantly during mitosis and early G1. Colcemid arrest of cells during mitosis inhibited subsequent MPMV release. Consequently, production of extracellular virus depends upon the progression of cells through the mitotic stage. These data, which provided a basic understanding of the virus-host relationship that occurs in primate cells productively infected with MPMV, were used as a guideline for isolating MPMV-like viruses from experimentally and naturally infected Rhesus monkey.
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PMID:Characterization of infection and replication of Mason-Pfizer monkey virus in human cell cultures. 11 35

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 product of phage P22 gene c1 has two functions: (1) it promotes synthesis of repressor and (2) during the first minutes of infection it retards expression of some lytic genes. We call the second, negative function "c1 retardation". We investigated c1 retardation in a mutant host of Salmonella typhimurium that is resistant to rifampicin and carries an altered RNA polymerase. No c1 retardation of DNA synthesis was detectable in this host after infection with wild-type phages. This elimination of the normally detectable c1 function leads to the conclusion that the mutant RNA polymerase interferes with the expression of c1 gene activity. Wild-type genes form clear plaques on the mutant host. Mutants of P22 called cly were isolated by others. These mutants form turbid plaques on the altered RNA polymerase host. Infections with P22 cly in the mutant host resulted in detectable c1 retardation. The cly mutation therefore restores c1 activity in a host which wild-type c1 is not expressed. Two spontaneous mutants were isolated from the mutant host. These two strains allowed partial expression of c1 retardation, although they remained rifampicin resistant. We interpret our data to indicate that expression of the normal functions of the gene c1 product requires an interaction of that product with the host RNA polymerase.
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PMID:Effect of mutant host RNA polymerase on the bifunctional activities of P22 gene c1. 32 18

Infection of Pseudomonas putida by the bacteriophage gh-L-induced the synthesis of a novel DNA-dependent RNA polymerase. This gh-L-induced RNA polymerase was purified to near homogeneity. It was shown to be distinct from the host RNA polymerase (alpha-2 beta beta sigma) physically and in respect to many of its catalytic properties. The gh-L-induced RNA polymerase was composed of a single polypeptide of approximately 98,000 molecular weight. The divalent metal ion requirement for in vitro RNA synthesis by the gh-L-polymerase could be satisified with Mg-2+, but not with Mn-2+. Rna synthesis by the gh-L polymerase was highly resistant to inhibition by rifampicin and streptolydigin but could be inhibited by relatively low concentrations of KCl or the rifamycin derivative AF/013. The structural analog of ATP, 3'-deoxyadenosine 5'-triphosphate, inhibited both the gh-L-induced and the host RNA polymerases by competing for a single binding site with ATP. The phage polymerase was extremely sensitive to this inhibitor, exhibiting an apparent K-i value (2 times 10-8 M) approximately 100 times lower than that for the host RNA polymerase. The gh-L polymerase had a highly specific template requirement for DNA from the homologous gh-L phage. It would not efficiently utilize denatured DNA templates and had only low levels of activity with pyrimidine-containing polydeoxyribonucleotide homopolymers.
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PMID:Purification and characterization of bacteriophage gh-I-induced deoxyribonucleic acid-dependent ribonucleic acid polymerase from Pseudomonas putida. 111 26

Infection with herpes simplex virus (HSV) results in an increase in the transcription of the endogenous Alu repeated sequence by RNA polymerase III. This effect is also observed in uninfected cells stably transformed with a plasmid expressing the HSV immediate-early protein ICP27 or in cells transfected with the gene encoding this protein. Both uninfected cells expressing ICP27 and cells infected with virus producing functional ICP27 display increased activity of the cellular transcription factor TFIIIC when compared with untreated cells. This increase is not observed, however, in cells infected with a mutant strain of virus which does not produce ICP27. Hence ICP27 induces elevated Alu transcription by activating transcription factor TFIIIC, which is the limiting factor for such transcription. This is the first report of increased activity of a cellular transcription factor during HSV infection, when most cellular gene activity is inhibited.
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PMID:The herpes simplex virus immediate-early protein ICP27 stimulates the transcription of cellular Alu repeated sequences by increasing the activity of transcription factor TFIIIC. 132 Mar 73

Infection due to human immunodeficiency virus (HIV) type 2 is believed to cause a clinical picture similar to that of HIV-1, although extensive data are not available. In 2 patients with West African exposure and neurologic symptoms, HIV-2 was detected in the central nervous system using DNA and RNA polymerase chain reaction, in situ hybridization, and immunohistology. In the first patient, the neurologic disease was most likely due to productive infection with HIV-2. In the second, a combination of neuropathologic abnormalities (including the presence of HIV-2) explained the clinical features. Thus HIV-2, like HIV-1, can be readily detected in brain tissue in patients with neurologic abnormalities, although the exact role of HIV-2 in pathogenesis of AIDS-associated neurologic disease requires further study.
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PMID:Detection of human immunodeficiency virus type 2 in brain tissue. 135 28

Adeno-associated virus (AAV) is a nonpathogenic parvovirus which normally requires helper adenovirus or herpes-virus for replication. We examined the growth of AAV type 2 in human lymphocytes and its possible interaction with HIV-1. Three B cell lines (CK-B, HS-2, and UC729) and four T cell lines (Molt-4, Jurkat, HUT78, and HUT78+HIV, which is persistently infected with HIV-1) were infected with AAV either in the presence or in the absence of adenovirus. AAV DNA was found in cells of all the lines following incubation with the virus, indicating absorption. AAV DNA replication occurred in most cell lines without particular preference for B or T cells, but only in the presence of helper virus, either adenovirus or Epstein-Barr virus. Expression of AAV proteins was examined by immunoblotting and ELISA, using sera specific for AAV Rep or capsid proteins. The level of AAV protein synthesis correlated with the efficiency of AAV DNA replication, and both varied between cell lines. The yield of infectious AAV was low in most cases, except in one T4 line (Jurkat), where AAV replication and protein synthesis in the presence of adenovirus were very extensive. In HUT78+HIV cells both adenovirus and AAV (in the presence of Ad2) replicated efficiently. The effects of adenovirus plus AAV coinfections on HIV-1 replication, measured by reverse-transcriptase (RT) activity, were mild. Infection with adenovirus or AAV alone resulted in a 60-70% increase in RT activity, while infection with AAV plus adenovirus resulted in a 20% decrease in RT activity. The yield of infectious AAV in this cell line was very low.
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PMID:Replication of adeno-associated virus type 2 in human lymphocytic cells and interaction with HIV-1. 137 38

Infection of cells with poliovirus results in a rapid inhibition of host RNA and protein synthesis. Concordant with this shutoff, the p220 subunit of the cap-binding protein complex is cleaved, probably indirectly, by the poliovirus proteinase p2A (2Apro). To elucidate the mechanism of action of 2Apro in inhibiting protein synthesis in vivo, we studied the effect of transient expression of 2Apro in COS-1 monkey kidney cells. In cells transfected with a 2Apro expression plasmid, p220 was cleaved and the 2Apro mRNA was reduced 30-fold compared to an identical plasmid containing a translation termination codon within the 2Apro coding region. The reduced expression from the 2Apro vector results from a 4-fold reduction in DNA replication and 22-fold reduction in transcription by RNA polymerase II from the adenovirus major late promoter/SV40 enhancer utilized in this vector. In contrast, no decrease in transcription of the adenovirus virus-associated I RNA gene by RNA polymerase III was observed. The effect of 2Apro expression on cap-dependent mRNA translation was studied by producing a dicistronic beta-globin mRNA harboring the encephalomyocarditis virus leader and 2Apro coding region within the 3' end of the mRNA to mediate cap-independent translation of 2Apro. Expression of this mRNA was also reduced 25-fold compared to an identical plasmid harboring a termination codon within the 2Apro coding region. Translation of the beta-globin marker gene from this mRNA was reduced 3-fold when corrected for mRNA level. These results suggest that p220 cleavage itself is not sufficient for complete inhibition of host translation and that an important effect of 2Apro expression on host protein synthesis is a reduction in RNA polymerase II transcription and to a lesser extent, DNA replication. This reduction could be a primary effect of 2Apro, or a secondary effect caused by the inhibition of translation.
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PMID:The effect of poliovirus proteinase 2Apro expression on cellular metabolism. Inhibition of DNA replication, RNA polymerase II transcription, and translation. 171 90

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

Transcription of bacteriophage Mu occurs in a regulatory cascade consisting of three phases: early, middle, and late. The 1.2-kb middle transcript is initiated at Pm and encodes the C protein, the activator of late transcription. A plasmid containing a Pm-lacZ operon fusion was constructed. beta-Galactosidase expression from the plasmid increased 23-fold after Mu prophage induction. Infection of plasmid-containing cells with lambda phages carrying different segment of the Mu early region localized the Pm-lacZ transactivation function to the region containing open reading frames E16 and E17. Deletion and linker insertion analyses of plasmids containing this region identified E17 as the transactivator; therefore we call this gene mor, for middle operon regulator. Expression of mor under the control of a T7 promoter and T7 RNA polymerase resulted in the production of a single polypeptide of 17 kDa as detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Insertion of a linker into mor substantially reduced the ability of Mu to form plaques. When growth of the mor mutant was assayed in liquid, lysis was delayed by about 50 min and the burst size was approximately one-fifth that of wild-type Mu. The mor requirement for plaque formation and normal growth kinetics was abolished when C protein was provided in trans, indicating that the primary function of Mor is to provide sufficient C for late gene expression. Comparison of the predicted amino acid sequence of Mor with other proteins revealed that Mor and C share substantial amino acid sequence homology.
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PMID:Identification of a positive regulator of the Mu middle operon. 214 78


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