EC:2.3.1.28 - FACTA Search

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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)

An Arabidopsis thaliana L. DNA containing the tRNA(TrpUGG) gene was isolated and altered to encode the amber suppressor tRNA(TrpUAG) or the ochre suppressor tRNA(TrpUAA). These DNAs were electroporated into carrot protoplasts and tRNA expression was demonstrated by the translational suppression of amber and ochre nonsense mutations in the chloramphenicol acetyltransferase (CAT) reporter gene. DNAs encoding tRNA(TrpUAG) and tRNA(TrpUAA) nonsense suppressor tRNAs caused suppression of their cognate nonsense codons in CAT mRNAs, with the tRNA(TrpUAG) gene exhibiting the greater suppression under optimal conditions for expression of CAT. The development of these translational suppressors which function in plant cells facilitates the study of plant tRNA gene expression and will make possible the manipulation of plant protein structure and function.
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PMID:Construction and expression of nonsense suppressor tRNAs which function in plant cells. 134 92

It has been shown that tandems of rare arginine codons AGG have a strong inhibitory effect on translation of mRNA in E. coli [5]. This has been explained by the rate-limiting interaction of these codons with the less abundant tRNA(AGG) [6]. In this study tandemly repeated AGG triplets were introduced into the chloramphenicol acetyltransferase (CAT) gene either upstream of the initiation ATG codon or downstream of it (both in frame and out of frame) and the expression of the modified genes was investigated. We report that the addition of AGG clusters resulted in a substantial inhibitory effect on CAT gene expression independently of their localization in mRNA. This inhibitory effect is explained by a competition of the tandem AGGAGG with the natural Shine-Dalgarno (SD) sequence (consensus AAGGAGGU) for the 3'-end of the 16S small ribosomal RNA (rRNA).
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PMID:Effect of tandemly repeated AGG triplets on the translation of CAT-mRNA in E. coli. 137 38

Ribonuclease P from Escherichia coli can cleave RNAs in simple, hydrogen-bonded complexes of two oligoribonucleotides that resemble the aminoacyl stem and 5' leader sequence of tRNA precursors. RNase P from human (HeLa) cells cannot catalyze the cleavage in vitro of the 5'-proximal oligoribonucleotide that contains the leader sequence in such simple complexes but can do so when the 3'-proximal oligoribonucleotide (external guide sequence) is altered to resemble three-quarters of a tRNA molecule. In such a complex, the efficiency of cleavage of the mRNA for chloramphenicol acetyltransferase, as the 5'-proximal oligoribonucleotide, depends on the structural details of the external guide sequence and on the choice of target site within the mRNA. The presence of the appropriately designed external guide sequence in cells in tissue culture reduces chloramphenicol acetyltransferase activity and the level of the corresponding intact mRNA in the cells. Thus, it appears that the use of such external guide sequences may provide a general technique for gene inactivation.
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PMID:Targeted cleavage of mRNA by human RNase P. 138 5

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

The Escherichia coli argU gene encodes the rare arginine tRNA, tRNA(UCUArg), which decodes the similarly rare AGA codons. The argU promoter is, with two exceptions, a typical, strongly expressed stable RNA gene promoter which is stimulated by an upstream activator sequence. Unlike other tRNA operons, however, argU expression is severely inhibited by sequences downstream of the transcription start point. In vivo, nucleotides +2 to +45 inhibited expression by 25- to 100-fold when measured by fusion of argU promoter regions to the chloramphenicol acetyltransferase reporter gene or by quantitative primer extension analysis. In vitro, linearized argU promoter fragments on which the argU region ended at +1 supported 5- to 10-fold-more transcription than when the argU region ended at +45. This difference in degree of inhibition between in vivo and in vitro conditions suggests that several factors, some of which could be absent in vitro, might limit expression in vivo. Alternatively, one mechanism might limit expression both in vivo and in vitro but function more efficiently in vivo. A second difference from strongly expressed stable RNA promoters is the fact the argU gene is relatively insensitive to growth rate regulation, at least when assayed on a multicopy plasmid.
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PMID:Expression of argU, the Escherichia coli gene coding for a rare arginine tRNA. 154 36

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

Amber (UAG) and opal (UGA) nonsense suppressors were constructed by oligonucleotide site-directed mutagenesis of two Drosophila melanogaster leucine-tRNA genes and tested in yeast, Drosophila tissue culture cells and transformed flies. Suppression of a variety of amber and opal alleles occurs in yeast. In Drosophila tissue culture cells, the mutant tRNAs suppress hsp70:Adh (alcohol dehydrogenase) amber and opal alleles as well as an hsp70:beta-gal (beta-galactosidase) amber allele. The mutant tRNAs were also introduced into the Drosophila genome by P element-mediated transformation. No measurable suppression was seen in histochemical assays for Adhn4 (amber), AdhnB (opal), or an amber allele of beta-galactosidase. Low levels of suppression (approximately 0.1-0.5% of wild type) were detected using an hsp70:cat (chloramphenicol acetyltransferase) amber mutation. Dominant male sterility was consistently associated with the presence of the amber suppressors.
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PMID:Drosophila nonsense suppressors: functional analysis in Saccharomyces cerevisiae, Drosophila tissue culture cells and Drosophila melanogaster. 217 93

We show that the amber termination codon UAG can initiate protein synthesis in Escherichia coli. We mutated the initiation codon AUG of the chloramphenicol acetyltransferase (CAT) gene to UAG (CATam1) and translated mRNA derived from the mutant CAT gene in E. coli S-30 extracts. A full-length CAT polypeptide was synthesized in the presence of tRNA(fMetCUA), a mutant E. coli initiator tRNA which has a change in the anticodon sequence from CAU to CUA. Addition of purified E. coli glutaminyl-tRNA synthetase substantially stimulated synthesis of the CAT polypeptide. Thus, initiation of protein synthesis with UAG and tRNA(fMetCUA) most likely occurs with glutamine and not methionine. The UAG codon also initiates protein synthesis in vivo. To eliminate a weak secondary site of initiation from AUC, the fifth codon, we further mutagenized the CATam1 gene at codons 2 (GAG----GAC) and 5 (AUC----ACC). Transformation of E. coli with the resultant CATam1.2.5 gene yielded transformants that synthesized CAT polypeptide and were resistant to chloramphenicol only when they were also transformed with the mutant tRNA(fMetCUA) gene. Immunoblot analyses and assays for CAT enzyme activity in extracts from transformed cells indicate that initiation from UAG is efficient, 60-70% of that obtained from AUG. Initiation of protein synthesis from UAG using a mutant initiator tRNA allows tightly regulated expression of specific genes. This may be generally useful for overproduction in E. coli and other eubacteria of proteins which are toxic to these cells.
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PMID:Initiation of protein synthesis from a termination codon. 240 24

Drosophila melanogaster strains with a stably incorporated amber suppressor tRNA gene have been generated. A tRNATyr gene was site specifically mutated to produce an anticodon sequence that recognizes the amber codon and then introduced into Drosophila by using P-element-mediated transformation. Transformants from four integration events were recovered. Two integrations resulted in both male and female sterility, whereas the other two resulted in male sterility but female fertility. Strains derived from the two female-fertile integration events were shown to have a low level of amber-suppressing activity by their ability to suppress an amber mutation in a chloramphenicol acetyltransferase gene.
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PMID:Construction, stable transformation, and function of an amber suppressor tRNA gene in Drosophila melanogaster. 250 55

A 2.7-kilobase (kb) cDNA sequence complementary to Suncus murinus mammary tumor virus (Sm-MTV) genomic RNA [corrected] was prepared using purified virions produced by the Sm-MT cell line, which had been established from a spontaneous mammary tumor of S. murinus. It was found, by using this cDNA in Southern hybridization experiments, that Sm-MTV was endogenous to this animal and that some 50 copies of endogenous provirus were present per haploid cellular genome. In addition, a proviral Sm-MTV DNA sequence, 9.4 kb long (Sm-P-MTV10), was cloned from a Sm-MT cell genomic library, and its long terminal repeat was found to be 720 base pairs (bp) long, with the U3.R and U5 regions 574 and 146 bp long, respectively. The boundary between U3 and R was not determined with certainty, though in the cDNA, the U3 and R regions were 462 and 105 bp long, respectively. The overall homology between the U3.R regions in the cDNA and Sm-P-MTV was 75%. These two DNAs differed in such transcription regulatory signals as CCAAT and TATAA, the first being missing from the cDNA. Nevertheless, chloramphenicol acetyltransferase assays showed that the long terminal repeats of the cDNA and the Sm-P-MTV were transcriptionally active but not steroid hormone responsive. Like Mason-Pfizer monkey virus, Sm-MTV used tRNA(1,2Lys) as a primer for reverse transcription. In addition, the immunosuppressive peptide sequence common to many retroviruses was found in the env region of Sm-MTV. In these two points, Sm-MTV differed from mouse MTV.
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PMID:Structural and functional analysis of long terminal repeats of Suncus murinus mammary tumor virus. 283 84

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