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)

Vesicular stomatitis virus messenger RNA has been transcribed in vitro from the viral genome by the virion-associated RNA polymerase in quantities suitable for translation. Wheat germ cell-free extracts programmed with the isolated in vitro 12-18S RNA fraction synthesize polypeptides similar to the viral N, NS, and M proteins, as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and tryptic peptide mapping of the in vitro products and the viral marker polypeptides. In addition, the RNA synthesized in vitro also codes for a protein of molecular weight 63,000 which may be a nonglycosylated form of the viral glycoprotein G. The 12-18S RNA has been partially separated into individual messenger species and these have been identified by the proteins for which they code. There are four monocistronic messenger species in the in vitro 12-18S RNA and the coding capacity of three of these molecules agrees with the estimated molecular weight of the polypeptide assigned to it.
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PMID:Translation and identification of the mRNA species synthesized in vitro by the virion-associated RNA polymerase of vesicular stomatitis virus. 16 17

Upon infection of Chinese hamster ovary cells (CHO), vesicular stomatitis (VSV) virus synthesizes two membrane proteins (the VSV glycoprotein and the VSV matrix or membrane (M) protein) and three nonmembrane proteins (the VSV nucleocapsid, the viral transcriptase, and an NS protein). We have used the VSV-infected cell as a model system for the study of the site of synthesis of these membrane and nonmembrane proteins. We have isolated VSV mRNA from free polyribosomes, membrane-bound polyribosomes, and the postribosomal supernatant, and identified the individual species of VSV mRNA present in each fraction. The mRNA which encodes the VSV glycoprotein is found exclusively on membrane-bound polyribosomes, while the mRNAs which encode the VSV, M, N, and NS proteins are found in free polyribosomes, in the membrane fraction of the cell, and in the postribosomal supernatant. Our results suggest that the VSV glycoprotein is synthesized exclusively on membrane polyribosomes, while at least some of the M, N, and NS proteins are made on free polyribosomes.
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PMID:Site of synthesis of membrane and nonmembrane proteins of vesicular stomatitis virus. 16 63

The virion transcriptase (nucleosidetriphosphate: RNA nucleotidyltransferase, EC 2.7.7.6) of vesicular stomatitis virus was fully active when ribonucleoprotein cores from purified virions were added to cell-free protein synthesizing systems of eukaryotic origin. Synthesis of mRNA was linear for at least 3 hr and the newly synthesized viral mRNA was efficiently utilized for the synthesis of viral proteins N (nucleoprotein), NS, and M (matrix); small amounts of a putative G (glycoprotein protein precursor and several unidentified polypeptides were regularly synthesized. The ratio of the various newly synthesized viral proteins was identical after different periods of coupled mRNA and protein synthesis. Identical proteins were obtained when the cell-free protein synthesizing systems were programmed with purified VSV mRNA synthesized in vitro. No detectable L protein was synthesized, even though transcripts complementary to the complete viral genome were detectable in the mRNA preparation by hybridization.
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PMID:Coupled in vitro transcription and translation of vesicular stomatitis virus messenger RNA. 17 Jun 4

The association of an RNA-dependent RNA polymerase activity with virions of pike fry rhabdovirus has been demonstrated by both in vitro and in vivo studies. The temperature optimum for the in vitro assay is around 20 C, although enzyme activity can be observed at 4 C. Preparations of pike fry virus possess a glycoprotein, a membrane protein, a nucleoprotein, an L protein, and a phosphoprotein, as well as an RNA of about 3.8 times 10-6 mol wt. A protein kinase activity has been found associated with virus preparations. In vitro RNA product analyses indicate that the virus-associated enzyme functions principally as a transcriptase synthesizing viral-complementary, heteropolymeric RNA.
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PMID:RNA polymerase associated with virions of pike fry rhabdovirus. 116 3

The parasitic protozoan Trypanosoma brucei has some hundred mini-chromosomes of 50-150 kb, which mainly consist of telomeric repeats, sub-telomeric repeats and internal 177-bp repeats. Their primary function seems to be to expand the repertoire of non-transcribed sub-telomeric variant surface glycoprotein (VSG) genes. Here we report that two of the smaller mini-chromosomes (55 and 60 kb) contain sequences homologous to the ribosomal RNA gene promoter region. We have targeted by homologous recombination the neomycin phosphotransferase (neo(r)) gene behind the promoter on the 55 kb chromosome and show that this promoter mediates the efficient synthesis of properly trans-spliced and polyadenylated neo mRNA. The resulting high resistance to G418 (a neo analogue) is stable in the absence of drug showing that mitotic segregation of this mini-chromosome is precise. Downstream of the transcription start the wild-type version of the ribosomal promoter is flanked by telomeric repeats. The absence of the sub-telomeric repeats found in other T.brucei chromosome ends suggests that the rDNA-telomeric junction has been formed by de novo addition of telomeric repeats to a broken chromosome end (healing). Our results provide a plausible explanation for the alpha-amanitin-resistant transcription of telomeric repeats in T.brucei reported by Rudenko and Van der Ploeg and they show that trypanosomes can efficiently use RNA polymerase I for the expression of sub-telomeric genes, supporting the notion that the alpha-amanitin-resistant transcription of sub-telomeric VSG genes may also be catalyzed by this enzyme.
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PMID:A ribosomal RNA gene promoter at the telomere of a mini-chromosome in Trypanosoma brucei. 131 72

We have examined the role of ras-related rab proteins in transport from the ER to the Golgi complex in vivo using a vaccinia recombinant T7 RNA polymerase virus to express site-directed rab mutants. These mutations are within highly conserved domains involved in guanine nucleotide binding and hydrolysis found in ras and all members of the ras superfamily. Substitutions in the GTP-binding domains of rab1a and rab1b (equivalent to the ras 17N and 116I mutants) resulted in proteins which were potent trans dominant inhibitors of vesicular stomatitis virus glycoprotein (VSV-G protein) transport between the ER and cis Golgi complex. Immunofluorescence analysis indicated that expression of rab1b121I prevented delivery of VSV-G protein to the Golgi stack, which resulted in VSV-G protein accumulation in pre-Golgi punctate structures. Mutants in guanine nucleotide exchange or hydrolysis of the rab2 protein were also strong trans dominant transport inhibitors. Analogous mutations in rab3a, rab5, rab6, and H-ras did not inhibit processing of VSV-G to the complex, sialic acid containing form diagnostic of transport to the trans Golgi compartment. We suggest that at least three members of the rab family (rab1a, rab1b, and rab2) use GTP hydrolysis to regulate components of the transport machinery involved in vesicle traffic between early compartments of the secretory pathway.
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PMID:GTP-binding mutants of rab1 and rab2 are potent inhibitors of vesicular transport from the endoplasmic reticulum to the Golgi complex. 142 35

All eukaryotic protein-coding genes are believed to be transcribed by RNA polymerase (Pol) II. An exception may exist in the protozoan parasite Trypanosoma brucei, in which the genes encoding the variant surface glycoprotein (VSG) and procyclic acidic repetitive protein (PARP) are transcribed by an RNA polymerase that is resistant to the Pol II inhibitor alpha-amanitin. The PARP and VSG genes were proposed to be transcribed by Pol I (C. Shea, M. G.-S. Lee, and L. H. T. Van der Ploeg, Cell 50:603-612, 1987; G. Rudenko, M. G.-S. Lee, and L. H. T. Van der Ploeg, Nucleic Acids Res. 20:303-306, 1992), a suggestion that has been substantiated by the finding that trypanosomes can transcribe protein-coding genes by Pol I (G. Rudenko, H.-M. Chung, V. P. Pham, and L. H. T. Van der Ploeg, EMBO J. 10:3387-3397, 1991). We analyzed the sequence elements of the PARP promoter by linker scanning mutagenesis and compared the PARP promoter with Pol I, Pol II, and Pol III promoters. The PARP promoter appeared to be of limited complexity and contained at least two critical regions. The first was located adjacent to the transcription initiation site (nucleotides [nt] -69 to +12) and contained three discrete domains in which linker scanning mutants affected the transcriptional efficiency: at nt -69 to -56, -37 to -11, and -11 to +12. The second region was located between nt -140 and -131, and a third region may be located between nt -228 and -205. The nucleotide sequences of these elements, and their relative positioning with respect to the transcription initiation site did not resemble those of either Pol II or Pol III promoter elements, but rather reflected the organization of Pol I promoters in (i) similarity in the positioning of essential domains in the PARP promoter and Pol I promoter, (ii) strong sequence homology between the PARP core promoter element (nt -37 to -11) and identically positioned nucleotide sequences in the trypanosome rRNA and VSG gene promoters, and (iii) moderate effects on promoter activity of mutations around the transcription initiation site.
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PMID:The promoter for the procyclic acidic repetitive protein (PARP) genes of Trypanosoma brucei shares features with RNA polymerase I promoters. 158 62

Vaccinia virus recombinants containing the sequences from herpes simplex virus type 1 (HSV-1) encoding the immediate early (IE)(alpha) proteins ICP4 and ICP0, under the control of a mutated vaccinia virus 11K late promoter, were constructed. A cDNA copy of the gene encoding ICPO and an ICP4-encoding genomic segment were each inserted into the vaccinia virus genome at the thymidine kinase (TK) locus by homologous recombination. Steady-state analyses revealed that RNAs homologous to the IE-0 and IE-4 sequences accumulated in cells infected by recombinants with the kinetics of a typical vaccinia late mRNA. Western blot analyses demonstrated that the expression level of both ICPO and ICP4, produced by the recombinant viruses, was comparable to that in HSV-1-infected cells at late times postinfection. Both proteins synthesized in cells infected by the recombinants were located in the nucleus as revealed by immunofluorescence. Although in vitro studies reveal that extracts from vaccinia-virus-infected cells lose the ability to transcribe genes that contain RNA polymerase II promoters (Puckett and Moss (1983), Cell 35, 441-448) both ICPO and ICP4 expressed by the recombinant viruses can transactivate plasmids containing a reporter gene driven by the promoters for the HSV-1 TK and glycoprotein C genes. Nuclear extracts prepared from cells infected with the vaccinia virus vector expressing ICP4 exhibited sequence-specific DNA-binding activity.
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PMID:Transactivation by herpes simplex virus proteins ICP4 and ICP0 in vaccinia virus infected cells. 165 5

The steady-state level of mRNA encoding the glycoprotein hormone alpha-subunit is increased about 4-fold in HeLa cells by cycloheximide (CHX) or puromycin at concentrations that inhibit protein synthesis. This effect is observed in a number of cell lines that ectopically produce alpha-subunit, including ChaGo (brochogenic carcinoma), FL (amnion), and HeLa (cervical carcinoma). No increase in alpha-subunit mRNA is evident in two choriocarcinoma cell lines (JAr, JEG-3) that produce alpha-subunit as an eutopic product. The half-life of alpha-subunit mRNA is unchanged in the presence of CHX, but nuclear run-on assays demonstrate a 2.6-fold greater loading of RNA polymerase on the alpha-subunit gene in nuclei from CHX-treated cells. These results suggest that inhibition of protein synthesis results in higher transcription rates and not in decreased mRNA turnover. A nuclear protein (Mr 50,000) that binds to a DNA fragment located 5' proximal to the alpha-subunit gene but not to more distal 5'-flanking sequence or to the alpha-subunit cDNA has been identified in HeLa but not in JEG-3 cell lines. The p50 DNA binding activity in HeLa cells decreases in the presence of CHX at a rate similar to that at which alpha-subunit mRNA increases. Moreover, in a series of HeLa cell clones, the levels of p50 are directly proportional to the magnitude of induction produced by CHX. These data are consistent with a model for alpha-subunit gene regulation involving a labile repressor and constitute yet another level of differential regulation of the alpha-subunit gene in cells that produce the hormone subunit in an ectopic versus eutopic manner.
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PMID:Induction by cycloheximide of the glycoprotein hormone alpha-subunit gene in human tumor cell lines and identification of a possible negative regulatory factor. 169 3

The variant-specific surface glycoprotein (VSG) gene 221 of Trypanosoma brucei is transcribed as part of a 60 kb expression site (ES). We have identified the promoter controlling this multigene transcription unit by the use of 221 chromosome-enriched DNA libraries and VSG gene 221 expression site specific transcripts. The start of transcription was determined by hybridization and RNase protection analysis of nascent RNA. The 5' ends of the major transcripts coming from the initiation region map at nucleotide sequences that do not strongly resemble rRNA transcriptional starts even though the transcripts are synthesized by an RNA polymerase highly resistant to alpha-amanitin. The cloned VSG gene 221 ES transcription initiation region promotes high CAT gene expression, when reintroduced by electroporation into T. brucei. We show that the activity of this expression site is controlled at or near transcription initiation in bloodstream trypanosomes. The 221 ES is inactivated without any sequence alteration within 1.4 kb of the transcription start site. This excludes mechanisms of promoter inactivation involving DNA rearrangements in the vicinity of the transcription start site, e.g. promoter inversion or conversion.
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PMID:The promoter for a variant surface glycoprotein gene expression site in Trypanosoma brucei. 169 65

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