Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have exploited the Escherichia coli lac operator/repressor system as a means to regulate the expression of a mammalian tRNA gene in vivo and in vitro. An oligonucleotide containing a lac operator (lacO) site was cloned immediately upstream of a human serine amber suppressor (Su+) tRNA gene. Insertion of a single lac repressor binding site at position -1 or -32 relative to the coding region had no effect on the amount of functional tRNA made in vivo, as measured by suppression of a nonsense mutation in the E. coli chloramphenicol acetyltransferase gene following cotransfection of mammalian cells. Inclusion of a plasmid expressing the lac repressor in the transfections resulted in 75 to 98% inhibition of suppression activity of lac operator-linked tRNA genes but had no effect on expression of the wild-type gene. Inhibition could be quantitatively relieved with the allosteric inducer isopropylthio-beta-D-galactoside (IPTG). Similarly, transcription in vitro of lac operator-linked tRNA genes in HeLa cell extracts was repressed in the presence of lac repressor, and this inhibition was reversible with IPTG. These results demonstrate that the bacterial lac operator/repressor system can be used to reversibly control the expression of mammalian genes that are transcribed by RNA polymerase III.
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PMID:Regulated expression of a mammalian nonsense suppressor tRNA gene in vivo and in vitro using the lac operator/repressor system. 140 20

Inverted sequences of the chloramphenicol acetyltransferase (CAT) reporter gene were fused to a soybean tRNA(met(i)) gene lacking a terminator such that the tRNA(met(i)) sequences caused the co-transcription of CAT antisense sequences by RNA polymerase III. When electroporated into carrot protoplasts, these antisense DNA constructs suppressed CAT enzyme activity expressed from co-electroporated DNAs containing the CAT gene downstream of the cauliflower mosaic virus (CaMV) 35S RNA promoter. Our most effective construct, an antisense sequence complementary to the 3' portion of the CAT gene, inhibited CAT activity five-fold greater than an antisense construct expressed by RNA polymerase II from the cauliflower mosaic virus 35S RNA promoter. These results indicate that antisense sequences transcribed by RNA polymerase III should efficiently suppress gene expression in plants.
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PMID:Suppression of gene expression in plant cells utilizing antisense sequences transcribed by RNA polymerase III. 162 77

To examine the RNA polymerase (EC 2.7.7.6) specificity of RNA maturation/utilization and transcriptional enhancement, we constructed a chimeric plasmid (pPolI-CAT) in which a promoter for mouse rRNA gene transcription was placed adjacent the coding sequences for chloramphenicol acetyltransferase (CAT; EC 2.3.1.28). A number of other constructs, including plasmids also containing a murine sarcoma virus enhancer or lacking any natural eukaryotic promoter sequences, were also prepared. In apparent agreement with earlier conclusions that an RNA polymerase I transcript can act as a messenger RNA, transient transfection of mouse L cells with pPolI-CAT yielded both high levels of transcription from the RNA polymerase I promoter and enzymatically active CAT protein. However, further examination revealed that CAT protein is not translated from RNA that begins at the normal rRNA transcription initiation site. Polysomal RNA is devoid of such RNA and instead consists of CAT-encoding transcripts that begin elsewhere in the mouse ribosomal DNA (rDNA) region. Since transcription of these aberrant RNAs is stimulated by the addition of a murine sarcoma virus enhancer segment, they are probably transcribed by RNA polymerase II. Transcripts that map to the authentic rRNA start site are not similarly enhanced. Moreover, unlike the RNAs deriving from the rRNA initiation site, these aberrant RNAs are more stable and the level of translatable CAT transcripts is suppressed by inclusion of larger segments of the rDNA promoter regions. Fortuitously initiated mRNAs are also formed in the absence of any natural eukaryotic promoter sequence. From these data we conclude that there is no evidence that normal RNA polymerase I transcription yields functional mRNA and that transcriptional enhancement appears to be RNA polymerase specific.
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PMID:RNA polymerase specificity of mRNA production and enhancer action. 346 18

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

The trans-activation response element (TAR) at the 5' end of the human immunodeficiency virus type 1 (HIV-1) mRNAs forms a stable hairpin structure which is a target for binding of the virally encoded protein Tat, which activates viral gene expression, as well as several cellular factors. TAR is also inhibitory to translation. One of several host factors that binds to TAR RNA is the La autoantigen, an RNA-binding protein which functions in RNA polymerase III transcription termination and has also been implicated in cap-independent internal translation initiation on poliovirus RNA. Here we show that La autoantigen alleviates translational repression by the HIV-1 leader RNA. In rabbit reticulocyte lysate, La relieves the cis-inhibitory effect of the TAR RNA on translation of bacterial chloramphenicol acetyltransferase (CAT) mRNA but not inhibition that is mediated by an artificial secondary structure element. Canonical translation factors exhibited slight (eIF-2 and GEF) or no (eIF-4A, eIF-4B, eIF-4E, eIF-4F, eIF-3, and eEF-1 alpha) stimulatory activity on translation of TAR-containing CAT mRNA. In addition, we show that poliovirus RNA, in spite of being an inefficient template in rabbit reticulocyte lysate, is a strong competitive inhibitor of translation of TAR-containing CAT mRNA but not CAT mRNA. This inhibition can be relieved by La but not by any other translation factor. The results suggest a possible involvement of the La autoantigen in HIV-1 gene expression.
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PMID:La autoantigen alleviates translational repression by the 5' leader sequence of the human immunodeficiency virus type 1 mRNA. 793 82

RNA polymerase I transcription has been used for expression of influenza vRNA molecules, with influenza hemagglutinin or other cDNAs precisely inserted between mouse rDNA promoter and terminator sequences. In in vitro studies generation of HA vRNA transcripts in high rates and correct formation of their 5' ends as well as their 3' ends has been achieved for such hybrid DNA templates. For in vivo expression studies, the HA coding region was replaced by chloramphenicol acetyltransferase (CAT), also in vRNA antisense orientation, with both influenza terminal sequences beyond start and stop codons being retained on the resulting transcript. Following transfection with precisely constructed hybrid DNA templates and depending on infection with influenza virus, CAT activity could be demonstrated. Templates resulting in 3' extended vRNA molecules did not give this result. vRNA-CAT molecules were not only recognized by influenza viral RNA polymerase for synthesis of plus strand mRNAs, but also were packaged into progeny virus particles, as shown by CAT activity in infected cells after passaging of virus containing supernatants.
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PMID:RNA polymerase I-mediated expression of influenza viral RNA molecules. 800 59

RNA polymerase I has been used for transcription of influenza hemagglutinin (HA) cDNA precisely linked in the anti-sense configuration to both mouse rDNA promoter and terminator segments. In transcription reactions based on Ehrlich ascites cell nuclear extracts, specific uniform RNA products are synthesized in high rates that are comparable to original rDNA template transcriptions. Primer extension reactions show the 5' ends of these RNA transcripts to be located exactly at position +1, corresponding to the 5' end of negative strand HA viral RNA. RNA 3' ends in a first series of constructs were found extended beyond the accepted location of pre-rRNA 3' ends, in using both hybrid cDNA and original rDNA templates. But upon deletion of six basepairs from the rDNA termination region RNA polymerase I transcription has been adapted to yield correctly terminated influenza viral RNA in vitro. This result has been confirmed in an in vivo experiment via synthesis of an anti-sense viral RNA molecule containing the chloramphenicol acetyltransferase (CAT) gene, which in turn is recognized at its terminal sequence by viral RNA dependent RNA polymerase for plus strand mRNA synthesis and expression of CAT activity.
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PMID:RNA polymerase I catalysed transcription of insert viral cDNA. 836 75

The sequence motif GGAGGC (Alu core) is present in the Alu family repeats, where it is required for RNA polymerase III promoter function. This motif is also found in the SV40 origin (ori) of replication. Here, an oligonucleotide containing the Alu sequence was inserted into pSV2CAT, a plasmid composed of the SV40 enhancer/promoter/ori linked to the bacterial chloramphenicol acetyltransferase gene (CAT), to see the effect of the Alu sequence on SV40 DNA replication and transcription. Results of transfection experiments in human HeLa cells showed that the Alu sequence stimulated sequence-specifically replication and transcription in the SV40 system. Stimulation effects on DNA replication were observed when the Alu sequence was placed upstream of enhancer/promoter/ori in either orientation, while effects on transcription were detected only when it was inserted in the normal orientation. These effects correlate with sequence-specific binding of two proteins (40 kDa and 120 kDa) to this motif. In fact, binding was abolished by a mutation in the cognate sequence that disrupted stimulation of replication and transcription. Both proteins bind duplex DNA, while the 40 kDa one also binds the minus strand with high affinity.
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PMID:Stimulation of SV40 DNA replication and transcription by Alu family sequence. 838 36

The Epstein-Barr virus-encoded small RNA (EBER) genes are transcribed by RNA polymerase III, but their transcription unit appears to contain both class II and class III promoter elements. One of these promoter element, a TATA-like box which we call the EBER TATA box, or ETAB, is located in a position typical for a class II TATA box but contains G/C residues in the normal T/A motif and a conserved thymidine doublet. Experiments using chloramphenicol acetyltransferase constructs and mutations in the TATA box of the adenovirus major late promoter showed that the ETAB promoter element does not substitute for a class II TATA box. However, when the ETAB promoter element sequence was changed to a class II TATA box consensus sequence, the EBER 2 gene was transcribed in vitro by both RNA polymerases II and III. From these results, we conclude that the ETAB promoter element is important for the exclusive transcription of the EBER 2 gene by RNA polymerase III.
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PMID:Upstream basal promoter element important for exclusive RNA polymerase III transcription of the EBER 2 gene. 838 14

The promoter region of the ribosomal RNA (rRNA) genes of Leishmania amazonensis was characterised and the transcription start point, defined by primer extension, was shown to be a T residue, 1048 nucleotides upstream of the beginning of the 18S sequence. A repetitive element of 60 bp was identified in the intergenic spacer. This element did not show sequence similarity with the region around the transcription start point. Conserved sequences were found in the external transcribed spacer of L. amazonensis, Trypanosoma cruzi and Crithidia fasciculata rRNA genes, 150 nucleotides downstream of the transcription start point. These sequences might be involved in processing events of the rRNA precursor molecule. The general organisation of the gene resembles the pattern observed for the ribosomal cistron in eukaryotic cells. Constructs containing the L. amazonensis promoter region upstream of the chloramphenicol acetyltransferase (cat) gene were able to drive the expression of the reporter gene in transient transfection experiments. CAT expression could be detected even when no trans-splicing acceptor sequence was added to the constructs, although its presence enhanced 5-fold the level of CAT activity. Species-specificity of the RNA polymerase I promoter activity was also demonstrated since constructs containing the L. amazonensis promoter region were unable to drive CAT expression when transfected into the related trypanosomatids, T. cruzi, C. fasciculata and Endotrypanum schaudini.
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PMID:Structural and functional characterization of the Leishmania amazonensis ribosomal RNA promoter. 892 10


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