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 present evidence that the fos oncogene encodes a transcriptional trans-activation function. trans-activation was assayed by cotransfection into NIH 3T3 mouse fibroblasts of v-fos DNA containing plasmids together with a plasmid containing a test promoter. Three v-fos DNAs were used: (i) pFBR-1, a plasmid containing the FBR proviral sequences; (ii) pFBJ-2, a plasmid harboring the FBJ proviral sequences; (iii) pMF-J, a plasmid containing the FBJ fos sequences linked to a mouse metallothionein promoter. Each of the three v-fos DNA plasmids stimulated the expression of a cotransfected chimeric gene consisting of a promoter segment of the mouse alpha 1(III) collagen gene linked to the gene for chloramphenicol transacetylase. In similar experiments the v-fos gene also stimulated the long terminal repeat promoter of Rous sarcoma virus (RSV) but neither the early promoter of simian virus 40 nor the beta-actin promoter. Evidence that the trans-activation function is specified by the v-fos coding sequences comes from the fact that a frameshift mutation in the v-fos coding sequence inhibits the trans-activation. Two mutations that map around nucleotide -100 in the RSV promoter do not respond to cotransfection with v-fos, whereas other mutations respond like the wild-type RSV promoter. These experiments suggest that the v-fos gene either encodes or induces an activator of transcription that recognizes specific sequences in promoters.
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PMID:Transcriptional activation encoded by the v-fos gene. 301 Feb 84

The efficiency of transfection and subsequent expression of recombinant DNA plasmids in monolayers of CV-1 monkey kidney cells was analyzed by immunoperoxidase and in situ hybridization with biotin-nucleotide-labeled DNA molecular probes. Two recombinant plasmids were used for transfection. Both contained the 3' long terminal repeat (LTR) of Rous sarcoma virus (RSV) as the transcriptional promoter, but two different coding sequences were employed [bacterial chloramphenicol acetyltransferase (pRSVcat) and mouse casein alpha (pRSVcsn alpha)]. In our experiments up to 25% of the transfected cells were positive for pRSVcat expression by indirect immunoperoxidase assay with affinity-purified, biotinylated anti-goat gamma-globulin after exposure to goat anti-chloramphenicol acetyltransferase antibody. In duplicate cultures, where pRSVcat expression was monitored by in situ hybridization signal that was restricted to the cytoplasm in positive cells was identified as pRSVcat RNA by its sensitivity to alkali. Although transfection of CV-1 cells with pRSVcsn-alpha did not result in immunologically detectable alpha casein, greater than 14% of the cells possessed cytoplasmic RNA concentrations detectable by in situ hybridization. These observations provide comparative information on in situ hybridization and immunoperoxidase techniques. They further indicate that in situ hybridization can be used to evaluate the effectiveness of transfection with recombinant expression vectors.
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PMID:Detection of transcription and translation in situ with biotinylated molecular probes in cells transfected with recombinant DNA plasmids. 301 47

We have used oligonucleotide-directed site-specific mutagenesis to convert serine codon 27 of the Escherichia coli chloramphenicol acetyltransferase (cat) gene to UAG, UAA, and UGA nonsense codons. The mutant cat genes, under transcriptional control of the Rous sarcoma virus long terminal repeat, were then introduced into mammalian cells by DNA transfection along with UAG, UAA, and UGA suppressor tRNA genes derived from a human serine tRNA. Assay for CAT enzymatic activity in extracts from such cells allowed us to detect and quantitate nonsense suppression in monkey CV-1 cells and mouse NIH3T3 cells. Using such an assay, we provide the first direct evidence that an opal suppressor tRNA gene is functional in mammalian cells. The pattern of suppression of the three cat nonsense mutations in bacteria suggests that the serine at position 27 of CAT can be replaced by a wide variety of amino acids without loss of enzymatic activity. Thus, these mutant cat genes should be generally useful for the quantitation of suppressor activity of suppressor tRNA genes introduced into cells and possibly for the detection of naturally occurring nonsense suppressors.
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PMID:Introduction of UAG, UAA, and UGA nonsense mutations at a specific site in the Escherichia coli chloramphenicol acetyltransferase gene: use in measurement of amber, ochre, and opal suppression in mammalian cells. 302 59

We have used a protoplast fusion protocol to introduce the genes encoding neomycin phosphotransferase (neo) and chloramphenicol acetyltransferase (CAT) into murine and human T-lymphocyte lines. Plasmid constructs containing the neo gene under the control of the promoters from the Rous sarcoma virus long terminal repeat (RSV LTR), the SV40 early region, or the herpes simplex virus thymidine kinase gene (HSV TK) can stably transform each of three T-cell lines to G-418 resistance. The characteristic frequencies for different cell lines can differ by at least two orders of magnitude, although initial DNA uptake and transient expression are similar. In the two murine cell lines, low numbers of gene copies are retained in long-term transformants. Prior to integration, transient expression assays for cat or neo gene products reveal that the differences in intrinsic promoter strength of different constructs are further influenced by the coding sequences being transcribed. Thus, while transient expression of the neo protein is similar from both the Rous LTR and the SV40 early promoter, the Rous LTR directs synthesis of CAT protein at levels two orders of magnitude higher than those from the SV40 early promoter.
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PMID:Differential transient and long-term expression of DNA sequences introduced into T-lymphocyte lines. 302 36

A cis-acting enhancer element has been detected within the gag gene of several avian retroviruses, including Rous sarcoma virus, Fujinami sarcoma virus, and the endogenous Rous-associated virus-0. A consensus enhancer core sequence, GTGGTTTG, is present in all of these viral genomes, approximately 900 bases downstream from the site of initiation of transcription. When an internal fragment derived from the gag gene of any of these viruses (spanning nucleotides 533 to approximately 1149) was inserted into a plasmid containing the chloramphenicol acetyltransferase (cat) gene under control of the simian virus 40 promoter, 9- or 21-fold enhancement of CAT expression was observed after transfection into mouse L cells and chicken embryo fibroblasts, respectively. This enhancement was not dependent on the position of insertion of the gag fragment into the plasmid. However, there was a strong dependence on orientation, with higher levels of CAT expression in constructs in which the 5' end of the gag fragment was nearest to the promoter, suggesting a possible negative regulatory element at the 3' end of this fragment. Deletion of the 3' end of the insert resulted in a gag fragment, containing nucleotides 533 to 1017, which enhanced expression equally in either orientation. When the gag fragment was inserted into a plasmid containing the cat gene under the control of an intact Rous sarcoma virus long terminal repeat, it induced a two- to threefold increase in CAT activity and CAT mRNA levels. Translation of the gag fragment did not appear to be necessary for the observed enhancement, since two insertional mutations resulting in frameshifts in the gag insert did not affect CAT expression. However, deletion of a 330-base internal fragment from the gag insert restored a basal level of CAT activity. These results suggest that retroviruses have regulatory elements within their genes distinct from those in the long terminal repeats that flank the genes.
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PMID:cis-acting regulatory elements within gag genes of avian retroviruses. 303 70

DNA coding for bacteriophage T7 RNA polymerase was ligated to a vaccinia virus transcriptional promoter and integrated within the vaccinia virus genome. The recombinant vaccinia virus retained infectivity and stably expressed T7 RNA polymerase in mammalian cells. Target genes were constructed by inserting DNA segments that code for beta-galactosidase or chloramphenicol acetyltransferase into a plasmid with bacteriophage T7 promoter and terminator regions. When cells were infected with the recombinant vaccinia virus and transfected with plasmids containing the target genes, the latter were expressed at high levels. Chloramphenicol acetyltransferase activity was 400-600 times greater than that observed with conventional mammalian transient-expression systems regulated either by the enhancer and promoter regions of the Rous sarcoma virus long terminal repeat or by the simian virus 40 early region. The vaccinia/T7 hybrid virus forms the basis of a simple, rapid, widely applicable, and efficient mammalian expression system.
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PMID:Eukaryotic transient-expression system based on recombinant vaccinia virus that synthesizes bacteriophage T7 RNA polymerase. 309 28

Approximately 1 kilobase of genomic DNA from the chicken fast myosin light-chain 1f/3f gene 5' to the transcriptional start sites for each light-chain mRNA was sufficient for differentiation-dependent, tissue-restricted expression. This was determined in primary chick myoblast cultures transfected with the chloramphenicol acetyltransferase (CAT) expression vector p8CAT containing these 5'-flanking sequences. The expression of CAT activity from both light-chain promoters was 10- to 20-fold higher in differentiated myotubes than in fibroblasts or myoblasts grown in bromodeoxyuridine. In contrast, the beta-actin and Rous sarcoma virus promoters joined to the CAT gene were expressed equally in all cell backgrounds tested. Even though the relative timing of light-chain 1f and 3f expression was altered, tissue-restricted, differentiation-dependent expression of the light-chain mRNAs was maintained with these 5' cis-acting sequence elements.
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PMID:Approximately 1 kilobase of sequence 5' to the two myosin light-chain 1f/3f gene cap sites is sufficient for differentiation-dependent expression. 316 11

We used molecular cloning to isolate a functional gene for mouse ornithine decarboxylase (OrnDCase; L-ornithine carboxy-lyase, EC 4.1.1.17) from a cell line in which that gene had been selectively amplified. The position of the 5' terminus of the mRNA was identified, and the coding sequence was shown to be preceded by a 312- or 313-nucleotide (nt) untranslated leader. The latter is highly G + C rich, particularly in its 5'-most portion. The leader can be anticipated to have extensive and stable secondary structure. The transcription unit of the gene is of relatively small size, approximately equal to 6.2 kilobases (kb) from the start site to the proximal site of polyadenylylation. Sequence analysis of DNA near the transcription start position demonstrated the presence of a "TATA" box, but no "CAAT" box. Functional properties of the cloned gene were tested by transfecting it into cultured cells. Expression of the putative full-length gene efficiently conferred ornithine decarboxylase activity on recipient mutant cells deficient in that activity. To assess the function and strength of the OrnDCase promoter region and to delimit its boundaries, we used a transient expression assay. Upstream of a bacterial chloramphenicol acetyltransferase gene was placed a portion of the OrnDCase gene, including the presumed promoter region, spanning a region from approximately equal to 3.0 kb 5' of the site of transcription initiation to the first 250 nt of the transcript. When expressed in mouse NIH 3T3 cells, this OrnDCase genomic element was comparable in strength to the Rous sarcoma virus long terminal repeat promoter. A similar construct, truncated so as to retain only 264 base pairs of the OrnDCase gene 5' to the site of transcription start, yielded undiminished levels of expression.
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PMID:Mouse ornithine decarboxylase gene: cloning, structure, and expression. 335 75

The expression of the fast type of myosin alkali light chain 1 is induced during the differentiation of muscle cells. To study the mechanism of its gene regulation, we joined the sequence of the 5'-flanking and upstream region of the chicken myosin alkali light-chain gene to the structural gene for chloramphenicol acetyltransferase (CAT). The fusion gene was introduced either into quail myoblasts transformed by a temperature-sensitive mutant of Rous sarcoma virus (tsNY68) or into chicken myoblasts, and the transiently expressed CAT activity was assayed after the differentiation of the myoblasts. From the experiments with the external and internal deletion mutants of the fusion gene, the cis-acting regulatory region responsible for the enhanced expression of the CAT activity in response to the cell differentiation was found to be localized at 2 kilobases upstream of the transcription initiation site. This region of 160 nucleotides contained two pairs of short sequences worthy of note, a direct repeat of 12 nucleotides, and an inverted repeat of 8 nucleotides. The nucleotide sequences of the 5'-flanking sequence up to nucleotide -3381 were determined and compared with those of the upstream activating elements of actin genes.
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PMID:Upstream regulatory region for inducible expression of the chicken skeletal myosin alkali light-chain gene. 340 13

The technique of DNA transfer by electroporation was investigated in an effort to evaluate its utility for the identification of developmentally controlled regulatory sequences. Transient and stable gene expression was detected in a variety of lymphoid cell lines subjected to electroporation. No correlation existed between the levels of chloramphenicol acetyltransferase (acetyl-CoA; chloramphenicol 3-O-acetyltransferase, EC 2.3.1.28) expression and stable transfection frequency. In all lymphoid cell lines tested, the simian virus 40 early region was a better promoter than was the Rous sarcoma virus long terminal repeat.
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PMID:Electric field-mediated DNA transfer: transient and stable gene expression in human and mouse lymphoid cells. 346 22


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