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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)

A transient expression system in which chimeric genes are expressed in cells infected with vaccinia virus was developed. Recombinant plasmids containing the promoter regions of vaccinia virus genes ligated to the coding segment of the prokaryotic chloramphenicol acetyltransferase (CAT) gene were constructed. When the plasmids were introduced into vaccinia virus-infected cells by transfection, the chimeric gene was expressed and significant levels of CAT accumulated. CAT activity was not detected when the same recombinant plasmid was introduced into uninfected cells, nor was activity detected when the vaccinia virus promoter was absent from the plasmid or was replaced by simian virus 40 or Rous sarcoma virus promoters. This specificity indicated that expression is dependent on a cis-acting vaccinia virus promoter region within the recombinant plasmid and diffusible trans-acting transcription factors produced during virus infection. The lack of effect of a simian virus 40 enhancer element inserted upstream of the vaccinia virus promoter region also distinguished this system from systems dependent on RNA polymerase II. Although replication of the recombinant plasmid could not be detected in either uninfected or vaccinia virus-infected cells, an inhibitor of DNA synthesis significantly reduced CAT expression. This result, as well as the kinetics of CAT synthesis, suggests that replication of viral DNA templates can enhance transcription of chimeric genes in recombinant plasmids.
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PMID:Eukaryotic transient expression system dependent on transcription factors and regulatory DNA sequences of vaccinia virus. 385 41

We investigated the protein and DNA sequence requirements for the expression of an immediate-early frog virus 3 (FV3) gene, infected-cell RNA (ICR) 169. We used a plasmid containing the 78 nucleotides 5' to the transcription start site of ICR-169 placed upstream from the coding sequence for the bacterial enzyme chloramphenicol acetyltransferase (CAT). This construction, when introduced by CaPO4-mediated transfection into various eucaryotic cell lines, promoted CAT synthesis only if the transfected cells were subsequently infected with FV3. Dot-blot hybridization of RNA extracted from transfected, FV3-infected cells with a radioactive CAT probe showed that the induction of CAT synthesis by FV3 was at the level of transcription. When transfected cells were infected with FV3 in the presence of cycloheximide, induction of CAT-specific RNA still occurred, demonstrating that a virion protein was responsible for the trans activation. FV3-induced CAT synthesis was inhibited by alpha-amanitin in wild-type Chinese hamster ovary (CHO) cells but not in CHO cells with an alpha-amanitin-resistant RNA polymerase II. The results suggest that a virion protein alters either the DNA template or the host polymerase to allow transcription from immediate-early FV3 promoters.
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PMID:trans activation of an immediate-early frog virus 3 promoter by a virion protein. 386 66

To develop a technique for identifying Bacillus subtilis genes whose products affect transcription from promoters recognized by sigma 37-containing RNA polymerase (E-sigma 37), we cloned the promoter region of a gene (ctc) that is actively transcribed in vitro by E-sigma 37 into a plasmid (pPL603B) so that a transcriptional fusion was created between ctc and a plasmid-borne chloramphenicol acetyltransferase (CAT) gene. CAT levels in B. subtilis carrying the ctc/CAT fusion plasmid varied in a manner that was consistent with the known pattern of ctc RNA synthesis. Mutagenesis of cells harboring the ctc/CAT plasmid led to the isolation of bacterial clones which displayed altered chloramphenicol resistance. Analysis of the mutants demonstrated that CAT activity was substantially changed in the mutant cells. Several of the B. subtilis mutants, both CAT overproducers and underproducers, also had acquired a sporulation-deficient phenotype. The mutations responsible for altered CAT expression were not carried on the plasmid. Analysis of RNA synthesized by mutant cells indicates that at least a portion of the mutants may be altered in the level of transcription from the ctc promoter and, hence, are likely to define B. subtilis genes which influence this process.
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PMID:Isolation of Bacillus subtilis mutants altered in expression of a gene transcribed in vitro by a minor form of RNA polymerase (E-sigma 37). 391 14

The plasmid gene cat-86 specifies chloramphenicol-inducible, chloramphenicol acetyltransferase in Bacillus subtilis. The inducible regulation is independent of the promoter that is used to activate cat-86 and is independent of the cat-86 coding sequence. We have proposed that the regulation of cat-86 results from the transcription of a pair of inverted-repeat sequences that immediately precede the coding sequence. These transcripts are predicted to sequester the cat-86 ribosome binding site in a stable RNA stem-loop which, in theory, should block the ribosome binding site from pairing with 16S rRNA. Inducible expression of cat-86 may therefore result in part from regulation of the translation of cat-86 mRNA. However, chloramphenicol-induction correlates with increased levels of cat-86 mRNA and the RNA stem-loop preceding the cat-86 coding sequence structurally resembles a rho-independent transcription terminator. We have therefore tested the inverted-repeats as a potential site of transcription termination. Transcription studies performed in vitro using SP6 RNA polymerase and in vivo by S1 mapping demonstrate that a substantial fraction of the potential cat-86 transcripts terminate at a site immediately 3' to the inverted-repeats. The results of the in vivo experiments suggest that the termination signal may be partially relieved by growth of cells in chloramphenicol.
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PMID:A transcription termination signal immediately precedes the coding sequence for the chloramphenicol-inducible plasmid gene cat-86. 392

Promoter-probe plasmid vectors were constructed for Streptomyces lividans using expression of the Escherichia coli chloramphenicol acetyltransferase gene as an indicator of promoter activity. These vectors have been used to isolate and to study the activity of DNA sequences that contain transcriptional control signals from Streptomyces, Bacillus licheniformis, E. coli, and Serratia marcescens. Studies of these promoter regions in heterospecific hosts indicate that genus or species-specific factors may present barriers to the expression of bacterial genetic material in certain heterologous cellular environments. While promoter regions isolated from E. coli, S. marcescens and B. licheniformis all appear to be recognized by the RNA polymerase of S. lividans, the Streptomyces transcriptional control signals isolated do not appear to function normally in E. coli.
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PMID:Gene expression in Streptomyces: construction and application of promoter-probe plasmid vectors in Streptomyces lividans. 629 63

Bifunctional recombinant plasmids were constructed, comprised of the E. coli vectors pBR322, pBR325 and pACYC184 and different plasmids from Gram-positive bacteria, e.g. pBSU161-1 of B. subtilis and pUB110 and pC221 of S. aureus. The beta-lactamase (bla) gene and the chloramphenicol acetyltransferase (cat) gene from the E. coli plasmids were not transcribed and therefore not expressed in B. subtilis. However, tetracycline resistance from the E. coli plasmids was expressed in B. subtilis. Transcription of the tetracycline resistance gene(s) started in B. subtilis at or near the original E. coli promoter, the sequence of which is almost identical with the sequence recognized by sigma 55 of B. subtilis RNA polymerase.
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PMID:Expression of antibiotic resistance genes from Escherichia coli in Bacillus subtilis. 641 Jan 52

The influenza virus NS1 protein was shown to stimulate translation of the M1 protein. M-CAT RNA, which contains the chloramphenicol acetyltransferase (CAT) reporter gene and the terminal noncoding sequence of segment 7 (coding for the M1 and M2 proteins), was ribonucleoprotein transfected into clone 76 cells expressing the influenza virus RNA polymerase and NP proteins required for the transcription and replication of influenza virus ribonucleoproteins. When the cells were superinfected with a recombinant vaccinia virus which expresses the NS1 protein, CAT expression from the M-CAT RNA was significantly stimulated but transcription was not altered. The expression of NS-CAT RNA, which contains noncoding sequences of segment 8 (coding for the NS1 and NS2 proteins), was not altered by the NS1 protein. Site-directed mutagenesis showed that the sequence GGUAGAUA upstream of the initiation codon on segment 7 was required for stimulation.
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PMID:Influenza virus NS1 protein stimulates translation of the M1 protein. 750 95

Hammerhead ribozyme sequences were incorporated into a tyrosine tRNA (tRNA(Tyr)) and compared with nonembedded molecules. To increase the levels of ribozyme and control antisense in vivo, sequences were expressed from an autonomously replicating vector derived from African cassava mosaic geminivirus. In vitro, the nonembedded ribozyme cleaved more target RNA, encoding chloramphenicol acetyltransferase (CAT), than the tRNA(Tyr) ribozyme. In contrast, the tRNA(Tyr) ribozyme was considerably more effective in vivo than either the nonembedded ribozyme or antisense sequences, reducing CAT activity to < 20% of the control level. A target sequence (CM2), mutated to be noncleavable, showed no reduction in CAT activity in the presence of the tRNA(Tyr) ribozyme beyond that for the antisense construct. The reduction in full-length CAT mRNA and the presence of specific cleavage products demonstrated in vivo cleavage of the target mRNA by the tRNA(Tyr) ribozyme. The high titer of tRNA(Tyr) ribozyme was a result of transcription from the RNA polymerase III promoter and led to the high ribozyme/substrate ratio essential for ribozyme efficiency.
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PMID:Effective ribozyme delivery in plant cells. 759 97

Previously, a cDNA was constructed so that transcription by T7 RNA polymerase yielded a approximately 1-kb negative-sense analog of genomic RNA of human respiratory syncytial virus (RSV) containing the gene for chloramphenicol acetyltransferase (CAT) under the control of putative RSV transcription motifs and flanked by the RSV genomic termini. When transfected into RSV-infected cells, this minigenome was "rescued," as evidenced by high levels of CAT expression and the production of transmissible particles which propagated and expressed high levels of CAT expression during serial passage (P.L. Collins, M. A. Mink, and D. S. Stec, Proc. Natl. Acad. Sci. USA, 88:9663-9667, 1991). Here, this cDNA, together with a second one designed to yield an exact-copy positive-sense RSV-CAT RNA antigenome, were each modified to contain a self-cleaving hammerhead ribozyme for the generation of a nearly exact 3' end. Each cDNA was transfected into cells infected with a vaccinia virus recombinant expressing T7 RNA polymerase, together with plasmids encoding the RSV N, P, and L proteins, each under the control of a T7 promoter. When the plasmid-supplied template was the mini-antigenome, the minigenome was produced. When the plasmid-supplied template was the minigenome, the products were mini-antigenome, subgenomic polyadenylated mRNA and progeny minigenome. Identification of progeny minigenome made from the plasmid-supplied minigenome template indicates that the full RSV RNA replication cycle occurred. RNA synthesis required all three RSV proteins, N, P, and L, and was ablated completely by the substitution of Asn for Asp at position 989 in the L protein. Thus, the N, P, and L proteins were sufficient for the synthesis of correct minigenome and antigenome, but this was not the case for subgenomic mRNA, indicating that the requirements for RNA replication and transcription are not identical. Complementation with N, P, and L alone yielded an mRNA pattern containing a large fraction of molecules of incomplete, heterogeneous size. In contrast, complementation with RSV (supplying all of the RSV gene products) yielded a single discrete mRNA band. Superinfection with RSV of cells staging N/P/L-based RNA synthesis yielded the single discrete mRNA species. Some additional factor supplied by RSV superinfection appeared to be involved in transcription, the most obvious possibility being one or more additional RSV gene products.
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PMID:RNA replication by respiratory syncytial virus (RSV) is directed by the N, P, and L proteins; transcription also occurs under these conditions but requires RSV superinfection for efficient synthesis of full-length mRNA. 763 14

Modified vaccinia virus Ankara (MVA), a host range restricted and highly attenuated vaccinia virus strain, is unable to multiply in human and most other mammalian cell lines. Since viral gene expression is unimpaired in non-permissive cells recombinant MVA viruses are efficient as well as exceptionally safe expression vectors. We constructed a recombinant MVA that expresses the bacteriophage T7 RNA polymerase and tested its usefulness for transient expression of recombinant genes under the control of a T7 promoter. Using the chloramphenicol acetyltransferase (CAT) gene as a reporter gene, infection with MVA-T7pol allowed efficient synthesis of recombinant enzyme in mammalian cells. Despite the severe host restriction of MVA, enzyme activities induced by infection with MVA-T7pol were similar to those determined after infection with a replication-competent vaccinia-T7pol recombinant virus. Thus, MVA-T7pol may be used as a novel vaccinia vector to achieve T7 RNA polymerase-specific recombinant gene expression in the absence of productive vaccinia virus replication.
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PMID:Non-replicating vaccinia vector efficiently expresses bacteriophage T7 RNA polymerase. 766 91

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