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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)

Vaccinia virus encodes a multisubunit DNA-dependent RNA polymerase (EC 2.7.7.6) that is packaged in the infectious virus particle. This polymerase was found to contain a submolar polypeptide of approximately 85 kDa in addition to the core subunits, which consist of two larger and several smaller polypeptides. The polymerase containing the 85-kDa polypeptide was separated from the core polymerase by column chromatography. Although the core polymerase actively transcribed heterologous single-stranded DNA, only the form with the associated 85-kDa polypeptide could act in conjunction with an early stage-specific factor to transcribe double-stranded DNA containing a vaccinia virus early promoter. Peptide sequencing established that the RNA polymerase-associated 85-kDa protein was derived from the vaccinia virus H4L open reading frame, which encodes a 94-kDa polypeptide that we named RAP94. RAP94 is not closely related to prokaryotic sigma 70 or eukaryotic RAP30 RNA polymerase-binding proteins, although there are short regions of sequence similarity. The specific association of RAP94 with viral RNA polymerase was corroborated with antibody raised to a recombinant fusion protein. Unlike the previously defined subunits of vaccinia virus RNA polymerase, RAP94 is synthesized exclusively late in infection, and synthesis could be prevented by a DNA replication inhibitor. The role of RAP94 in mediating specific transcription was demonstrated by using an extract from cells in which the H4L open reading frame had been transiently expressed.
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PMID:RNA polymerase-associated transcription specificity factor encoded by vaccinia virus. 156 50

Albino rice plants derived from pollen contain plastid genomes that have suffered large-scale deletions. From the roots of albino plants, we obtained several calli containing homogeneous plastid DNA differing in the size and position of the deletion. DNA differing in the size and position of the deletion. Southern blotting and pulsed field gel electrophoresis experiments revealed that the DNAs were linear molecules having a hairpin structure at both termini, existing as monomers (19 kb) or dimers, trimers and tetramers linked to form head-to-head and tail-to-tail multimers. This characteristic form is similar to that of the vaccinia virus, in which the replication origin is thought to lie at or near the hairpin termini. Furthermore, polymerase chain reaction experiments revealed complete loss of the ribosomal RNA genes of the plastid DNA. The results suggest that plant cells can grow without translation occurring in plastids. All of the deleted plastid DNAs commonly retained the region containing the tRNA(Glu) gene (trnE), which is essential for biosynthesis of porphyrin. As porphyrin is the precursor of heme for mitochondria and other organelles, it is considered that trnE on the remnant plastid genome may be transcribed by an RNA polymerase encoded on nuclear DNA.
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PMID:Pollen-derived rice calli that have large deletions in plastid DNA do not require protein synthesis in plastids for growth. 160 57

We have expressed the murine coronavirus haemagglutinin-esterase protein in a vaccinia virus/T7 RNA polymerase system. The levels of expression observed are significantly higher than those found in virus-infected cells. The expressed protein has both receptor-destroying (esterase) and receptor-binding (haemadsorption) activities. The use of this system will greatly facilitate analysis of the structure-function relationships of this protein.
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PMID:High level transient expression of the murine coronavirus haemagglutinin-esterase. 164 74

It has previously been demonstrated that vaccinia virus capping enzyme is involved both in the formation of a 5' cap structure and in termination of early transcription. Here we show that capping enzyme has an additional activity which is required for transcription of intermediate genes. VITF-A and VITF-B have been defined as two activities which together with RNA polymerase are necessary and sufficient to transcribe intermediate genes in vitro. VITF-A and the viral capping enzyme are shown to copurify to near homogeneity. Direct evidence that capping enzyme is VITF-A was obtained by complementation of a reconstituted transcription system with viral capping enzyme expressed in Escherichia coli. Although capping enzyme is a cofactor in early transcription termination, intermediate transcription is not terminated in response to the early termination signal. Capping enzyme is shown to form a complex with RNA polymerase in the absence of VITF-B. This appears to be a prerequisite for the formation of a stable initiation complex.
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PMID:Vaccinia virus capping enzyme is a transcription initiation factor. 165 Dec 30

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 10.7-kb BamHI "C" restriction fragment of malignant rabbit fibroma virus (MV) contains genes that are important for its immunosuppressive activity. When this fragment is transferred to a related avirulent leporipoxvirus, Shope fibroma virus (SFV), recombinant viruses show clinical features characteristic of MV: they replicate in lymphocytes and alter immune function in vitro, induce disseminated tumors in recipient rabbits, and are immunosuppressive in vivo. The 10.7-kb BamHI "C" restriction fragment of MV was sequenced in its entirety. Its DNA sequence and the 14 ORF's derived from analyzing this sequence are discussed. Analysis of known open reading frames to which the ORF's from MV's Bam "C" fragment show homology permits us to identify some MV ORF's showing high degrees of similarity to known and postulated proteins produced by vaccinia virus. Functions for some of these vaccinia proteins are known, while functions for others are hypothetical or unknown. Further analysis of genetic determinants of MV's virulence has indicated that two overlapping restriction subfragments of the BamHI "C" fragment can transfer MV's virulent behavior to SFV. The 0.7-kb region in which these two subfragments overlap includes the C-terminus of MV orf C-7 and the N terminus of MV orf C-8. These correspond to the C- and N-termini, respectively, of SFV orf's D-9 and D-10 and to vaccinia orf's D-6 (early transcription factor) and D-7 (subunit of RNA polymerase). We sequenced the region of SFV's BamHI "D" fragment in this area and illustrate here the comparative sequences of this portion of SFV's genome and orf's. On the basis of comparisons between MV, SFV, and vaccinia in this area we discuss the potential significance of these observations.
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PMID:Sequence and analysis of a portion of the genomes of Shope fibroma virus and malignant rabbit fibroma virus that is important for viral replication in lymphocytes. 166 Jan 96

A recombinant vaccinia virus producing the bacteriophage T7 RNA polymerase was used to express foreign genes in eukaryotic cells. Translation efficiency in this expression system was enhanced significantly by employing the encephalomyocarditis virus (EMCV) 5'-untranslated region (UTR) which confers cap-independent translation by directing internal initiation of translation. The enhancement was accomplished by fusing open reading frames (ORFs) to the N terminus of the EMCV polyprotein coding region, thus utilizing its highly efficient translation initiation site. Expression vectors were constructed to allow cloning in all three reading frames. As reporter genes, we used the lacZ gene and a number of genes encoding coronavirus structural proteins: among others the genes encoding glycoproteins with N-terminal signal sequences. The signal sequences of these glycoproteins are located internally in the primary translation product. We demonstrated that this did not interfere with translocation and glycosylation and yields biologically active proteins. The usefulness of sequences that direct internal initiation was extended by using EMCV UTRs to express two and three ORFs from polycistronic mRNAs.
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PMID:Enhancement of the vaccinia virus/phage T7 RNA polymerase expression system using encephalomyocarditis virus 5'-untranslated region sequences. 166 Aug 38

The cytoplasmic injection of mRNA synthesized in vitro into Xenopus oocytes is widely used for heterologous expression of ion channels and neurotransmitter receptors. We report two new methods for expression of ion channels and receptors in oocytes using vaccinia virus (VV). 1) A recombinant VV carrying the Shaker H4 K+ channel cDNA driven by the VV P7.5 early promoter was injected into oocytes. 2) A recombinant VV containing the bacteriophage T7 RNA polymerase driven by the P7.5 promoter was coinjected along with plasmids containing a T7 promoter and cDNAs for channels and receptors. The functionally expressed proteins include a) voltage-gated ion channels: the Shaker H4 K+ channel and the rat brain IIA Na+ channel, b) a ligand-gated ion channel: the mouse muscle nicotinic acetylcholine receptor (AChR), and c) a G protein-coupled receptor: the rat brain 5HT1C receptor. After virus/cDNA injection into oocytes, these channels and receptors generally showed characteristics and expression levels similar to those observed in mRNA-injected oocytes. However, the AChR expressed at lower levels in virus/cDNA-injected oocytes than in mRNA-injected oocytes. Because our methods bypass mRNA synthesis, they are more rapid and convenient than the mRNA injection method. Potential applications to structure-function studies and expression cloning are discussed.
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PMID:Expression of ion channels and receptors in Xenopus oocytes using vaccinia virus. 170 38

We have developed a system for analysis of discrete steps in vaccinia virus early mRNA synthesis during a single round of transcription in vitro. A synthetic early promoter is used to direct transcription by vaccinia RNA polymerase of a G-less cassette in linear duplex DNA. Omission of GTP from transcription reactions leads to the formation of ternary elongation complexes paused stably at the end of the G-less cassette. These complexes can be induced to elongate by provision of GTP. While initiation of transcription is sensitive to low concentrations of salt and Sarkosyl, elongation is relatively resistant to these agents. Termination can be studied in a single synthetic cycle by forming transcription complexes paused just proximal to the termination signal TTTTTNT that can subsequently elongate and terminate. By selectively incorporating the termination-inhibiting analog BrUMP into proximal and distal portions of the nascent transcript, we localize the termination signal within or near the sequence UUUUUNU in the nascent RNA. We show that access of the vaccinia termination factor (VTF/capping enzyme) to the transcriptional apparatus can occur subsequent to initiation and synthesis of a 390-nucleotide nascent RNA. Termination is more sensitive to inhibition by salt and Sarkosyl than in elongation. This sensitivity is not reversed by preincubation of VTF with the transcription complex. Finally, we confirm the identity of VTF and vaccinia mRNA capping enzyme by demonstration of VTF activity associated with capping enzyme expressed in Escherichia coli.
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PMID:Discrete functional stages of vaccinia virus early transcription during a single round of RNA synthesis in vitro. 171 78

The vaccinia virus DNA-dependent RNA polymerase subunit gene rpo19 was identified, and its expression was examined at RNA and protein levels. Antibody to the multisubunit RNA polymerase purified from virions reacted with a polypeptide with an apparent Mr of 21,000 that was synthesized in reticulocyte lysates programmed with (i) mRNA from infected cells that was isolated by hybridization to DNA subclones of the viral genomic HindIII A fragment and (ii) mRNA made in vitro by transcription of the viral open reading frame A6R. Polyclonal antiserum, raised to a recombinant protein product of the A6R open reading frame which could encode an 18,996-Da protein with an acidic N terminus, reacted with Mr-21,000 and -22,000 polypeptides that cosedimented with purified RNA polymerase. Internal sequencing of the two polypeptides confirmed that both were encoded by A6R, and the gene was named rpo19 to indicate the predicted molecular mass of the polypeptide in kilodaltons. Immunoblotting and metabolic labeling of infected cell proteins indicated that synthesis of the Mr-21,000 polypeptide started early and continued throughout virus infection, whereas the Mr-22,000 form appeared late following DNA replication. RNA analyses suggested that the rpo19 mRNA was expressed from a dual early/late promoter and that the protein-coding region of the mRNA was directly preceded by a short 5' poly(A) leader, apparently initiated within the TAAATG motif at the beginning of the open reading frame.
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PMID:Identification and expression of rpo19, a vaccinia virus gene encoding a 19-kilodalton DNA-dependent RNA polymerase subunit. 173 Nov 16

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