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)

The consequences of altering the 5' flanking region of a human amber suppressor tRNA(ser) gene on phenotypic expression in vivo and transcription in vitro was examined by constructing a series of upstream deletion and substitution mutants. The resulting tDNA variants were examined for functional tRNA expression in vivo, by measuring suppression of a nonsense mutation in the Escherichia coli chloramphenicol acetyltransferase (cat) gene in co-transfection assays, and for transcriptional activity in vitro using HeLa cell nuclear extracts. Mutant genes in which the 18 nucleotides 5' proximal to the coding region were deleted and replaced with heterologous sequences were 2 to 5 fold more active in vivo in comparison to the wild type gene. There was a strong, but not exclusive, correlation between the levels of nonsense suppression observed in vivo and transcriptional activity in vitro. In certain cases, introduction of an oligonucleotide encompassing this 18 nucleotide element upstream of more active tRNA genes reduced both the levels of suppression and template activity. These results indicate that the immediate 5' contiguous sequence of this tRNA gene negatively modulates expression both in vivo and in vitro.
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PMID:The 5' flanking sequence negatively modulates the in vivo expression and in vitro transcription of a human tRNA gene. 823 81

The yeast two-hybrid system was used to isolate a clone from a 17-day-old mouse embryo cDNA library that codes for a novel 812-aa long protein fragment, glucocorticoid receptor-interacting protein 1 (GRIP1), that can interact with the hormone binding domain (HBD) of the glucocorticoid receptor. In the yeast two-hybrid system and in vitro, GRIP1 interacted with the HBDs of the glucocorticoid, estrogen, and androgen receptors in a hormone-regulated manner. When fused to the DNA binding domain of a heterologous protein, the GRIP1 fragment activated a reporter gene containing a suitable enhancer site in yeast cells and in mammalian cells, indicating that GRIP1 contains a transcriptional activation domain. Overexpression of the GRIP1 fragment in mammalian cells interfered with hormone-regulated expression of mouse mammary tumor virus-chloramphenicol acetyltransferase gene and constitutive expression of cytomegalovirus-beta-galactosidase reporter gene, but not constitutive expression from a tRNA gene promoter. This selective squelching activity suggests that GRIM can interact with an essential component of the RNA polymerase II transcription machinery. Finally, while a steroid receptor HBD fused with a GAL4 DNA binding domain did not, by itself, activate transcription of a reporter gene in yeast, coexpression of this fusion protein with GRIP1 strongly activated the reporter gene. Thus, in yeast, GRIP1 can serve as a coactivator, potentiating the transactivation functions in steroid receptor HBDs, possibly by acting as a bridge between HBDs of the receptors and the basal transcription machinery.
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PMID:GRIP1, a novel mouse protein that serves as a transcriptional coactivator in yeast for the hormone binding domains of steroid receptors. 864 9

The ability of an XPA minigene construct to complement the DNA repair defect in xeroderma pigmentosum group A (XP-A) cells was demonstrated. XP-A cells (XP12BE-SV) were stably transformed with an XPA minigene linked to a neomycin resistance (neor) expression cassette. The G418-resistant clone XAN1 was isolated and its DNA repair phenotype compared with XP12BE-SV cells transformed with a cosmid containing a human chromosome 8 gene and a neo(r) cassette and selected for G418 resistance (2-0-A2), DNA repair-normal human fibroblasts and untransfected XP12BE-SV cells. Colony forming ability after UV-irradiated reactivation of a UV-irradiated chloramphenicol acetyltransferase (CAT) expression vector and UV-induced mutagenesis in a supF tRNA shuttle vector (pSP189) were all restored to normal levels in XAN1 cells. In addition, mutation spectra in the supF gene of pSP189 after replication in all four cell lines were compiled at low (100 J/m2) and high (1000 J/m2) UV doses. The majority of mutations were point mutations and these were predominately G:C-->A:T transitions regardless of dose for all cell lines. Dose-dependent differences were observed in the positions of mutation hot spots in pSP189 mutation spectra after replication in all four cell lines. Mutation spectra for XAN1 and GM0637 cells had only minor differences. An increase in the proportion of transversions was observed only in plasmids irradiated with a low UV dose and replicated in XAN1 cells. 2-0-A2 cells were reported to have partial restoration of DNA repair that was later suggested to be caused by a reversion. 2-0-A2 cells were nearly identical to XP12BE-SV cells in all aspects investigated, indicating that transformation to neor had no effect on DNA repair in these cells.
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PMID:Stable transformation of xeroderma pigmentosum group A cells with an XPA minigene restores normal DNA repair and mutagenesis of UV-treated plasmids. 882 13

For functional studies of mutant Escherichia coli initiator tRNAs in vivo, we previously described a strategy based on the use of tRNA genes carrying an anticodon sequence change from CAU to CUA along with a mutant chloramphenicol acetyltransferase (CAT) gene carrying an initiation codon change from AUG to UAG. Surprisingly, under conditions where the mutant initiator tRNA is optimally active, the CAT gene with the UAG initiation codon produced more CAT protein (3- to 9-fold more depending on the conditions) than the wild-type CAT gene. Here we show that two new mutant CAT genes having GUC and AUC initiation codons also produce more of the CAT protein in the presence of the corresponding mutant initiator tRNAs. These results are most easily understood if assembly of the 30S ribosome-initiator tRNA-mRNA initiation complex in vivo proceeds with the 30S ribosome binding first to the initiator tRNA and then to the mRNA. In cells overproducing the mutant initiator tRNAs, most ribosomes would carry the mutant initiator tRNA and these ribosomes would select the mutant CAT mRNA over the other mRNAs.
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PMID:Ribosome-initiator tRNA complex as an intermediate in translation initiation in Escherichia coli revealed by use of mutant initiator tRNAs and specialized ribosomes. 888 64

Two eukaryotic proteins involved in translation termination have recently been characterized in in vitro experiments. Eukaryotic release factor 1 (eRF1) catalyzes the release of the polypeptide chain without any stop codon specificity. The GTP-binding protein eRF3 confers GTP dependence to the termination process and stimulates eRF1 activity. We used tRNA-mediated nonsense suppression at different stop codons in a cat reporter gene to analyze the polypeptide chain release factor activities of the human eRF1 and eRF3 proteins overexpressed in human cells. In a chloramphenicol acetyltransferase assay, we measured the competition between the suppressor tRNA and the human release factors when a stop codon was present in the ribosomal A site. Whatever the stop codon (UAA, UAG, or UGA) present in the cat open reading frame, the overexpression of human eRF1 alone markedly decreased translational readthrough by suppressor tRNA. Thus, like the procaryotic release factors RF1 and RF2 in Escherichia coli, eRF1 seems to have an intrinsic antisuppressor activity in human cells. Levels of antisuppression of overexpression of both eRF3 and eRF1 were almost the same as those of overexpression of eRF1 alone, suggesting that eRF1-eRF3 complex-mediated termination may be controlled by the expression level of eRF1. Surprisingly, when overexpressed alone, eRF3 had an inhibitory effect on cat gene expression. The results of cat mRNA stability studies suggest that eRF3 inhibits gene expression at the transcriptional level. This indicates that in vivo, eRF3 may perform other functions, including the stimulation of eRF1 activity.
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PMID:Overexpression of human release factor 1 alone has an antisuppressor effect in human cells. 915 15

An initiator tRNA gene, metA, and a closely linked fragment of a second initiator-tRNA-like sequence, metB, from Mycobacterium tuberculosis H37Ra have been cloned and characterized. The promoter region of metA shows the presence of conserved sequence elements, TAGCCT and TTGGCG, with resemblance to -10 and -35 promoter regions. The deduced sequence of the mature tRNA contains the three unique features of the eubacterial initiator tRNAs represented by (i) a C:U mismatch at position 1:72, (ii) three consecutive base pairs, 29-31G:C39-41 in the anticodon stem, and (iii) a purine:pyrimidine (A:U) base pair at position 11:24 in the dihydrouridine stem. A putative hairpin structure consisting of an 11 bp stem and a three-base loop found in the 3' flanking region is followed by a stretch of T residues and may serve as a transcription terminator. Analysis of the expression of metA and of its promoter using chloramphenicol acetyltransferase fusion constructs in Mycobacterium smegmatis shows that metA is a functional gene driven by a strong promoter. Furthermore, the overexpressed transcripts are fully processed and formylated in vivo. The metB clone shows the presence of sequences corresponding to those downstream of position 30 of the tRNA. However, the CCA sequence at the 3' end has been mutated to CCG. Interestingly, the 3' flanking sequences of both the genes are rich in GCT repeats. The metB locus also harbours a repeat element, IS6110. A method to prepare total RNA from mycobacteria (under acidic conditions) to analyse in vivo status of tRNAs is described.
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PMID:Characterization of the initiator tRNA gene locus and identification of a strong promoter from Mycobacterium tuberculosis. 938 37

As an approach to inducible suppression of nonsense mutations in mammalian cells, we described recently an amber suppression system in mammalian cells dependent on coexpression of Escherichia coli glutaminyl-tRNA synthetase (GlnRS) along with the E. coli glutamine-inserting amber suppressor tRNA. Here, we report on tetracycline-regulated expression of the E. coli GlnRS gene and, thereby, tetracycline-regulated suppression of amber codons in mammalian HeLa and COS-1 cells. The E. coli GlnRS coding sequence attached to a minimal mammalian cell promoter was placed downstream of seven tandem tetracycline operator sequences. Cotransfection of HeLa cell lines expressing a tetracycline transactivator protein, carrying a tetracycline repressor domain linked to part of a herpesvirus VP16 activation domain, with the E. coli GlnRS gene and the E. coli glutamine-inserting amber suppressor tRNA gene resulted in suppression of the amber codon in a reporter chloramphenicol acetyltransferase gene. The tetracycline transactivator-mediated expression of E. coli GlnRS was essentially completely blocked in HeLa or COS-1 cells grown in the presence of tetracycline. Concomitantly, both aminoacylation of the suppressor tRNA and suppression of the amber codon were reduced significantly in the presence of tetracycline.
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PMID:Tetracycline-regulated suppression of amber codons in mammalian cells. 967 51

The effect on translational pausing of a hydrophobic probe, coumarin, at the N terminus of nascent peptides was investigated. Two different proteins, bacterial chloramphenicol acetyltransferase and bovine rhodanese, were synthesized by coupled transcription/translation in a cell-free system derived from Escherichia coli. Protein synthesis was initiated with N-formyl-Met-tRNAf or N-acetyl-S-coumarin-Met-tRNAf. Cotranslational incorporation of the coumarin derivative generated nascent polypeptides with a hydrophobic residue at their N termini. The effect of the two N-terminal groups on the size distribution and quantity of the peptides formed by translational pausing was investigated. The N-terminal coumarin caused an accumulation of nascent chloramphenicol acetyltransferase peptides in the mass range of 3.5-4.0 kDa that reflects a delay in translation at this point. No similar effect on rhodanese pause-site peptides was observed. This effect on translational pausing cannot be explained by either mRNA secondary structure or rare codons and tRNA abundance. It is suggested that the effect of N-terminal coumarin on translational pausing is the result of the interaction of the nascent peptide with components of the large ribosomal subunit along the path it follows between the peptidyl transferase center and the exit site on the distal surface.
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PMID:The effect of a hydrophobic N-terminal probe on translational pausing of chloramphenicol acetyl transferase and rhodanese. 993 Dec 50

Structurally different fluorescent probes were covalently attached to methionyl-tRNA(f) and tested for their incorporation into nascent peptides and full-length protein using an Escherichia coli cell-free coupled transcription/translation system. Bovine rhodanese and bacterial chloramphenicol acetyltransferase (CAT) were synthesized using derivatives of cascade yellow, eosin, pyrene, or coumarin attached to [(35)S]Met-tRNA(f). All of the probes tested were incorporated into polypeptides, although less efficiently when compared with formyl-methionine. Eosin, the largest of the fluorophores used with estimated dimensions of 20 x 11 A, caused the largest reduction in product formed. The rate of initiation was reduced with the fluorophore-Met-tRNA(f) compared with fMet-tRNA(f) with pyrene having the least and eosin the biggest effect. Analysis of the nascent polypeptides showed that the modifications at the N terminus affected the rate at which nascent CAT peptides were elongated causing accumulation of peptides of about 4 kDa, possibly by steric hindrance inside the tunnel within the 50 S ribosomal subunit. Fluorescence measurements indicate that the probe at the N terminus of nascent pyrene-CAT peptides is in a relatively hydrophilic environment. This finding is in agreement with recent data showing cross-linking of the N terminus of nascent peptides to nucleotides of the 23 S ribosomal RNA.
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PMID:Fluorophores at the N terminus of nascent chloramphenicol acetyltransferase peptides affect translation and movement through the ribosome. 1063 75

We demonstrate here the first experimental suppression of a premature termination codon in vivo by using an ochre suppressor tRNA acting in an intact mouse. Multicopy tRNA expression plasmids were directly injected into skeletal muscle and into the hearts of transgenic mice carrying a reporter gene with an ochre mutation. A strategy for modulation of suppressor efficiency, applicable to diverse systems and based on tandem multimerization of the tRNA gene, is developed. The product of suppression (chloramphenicol acetyltransferase) accumulates linearly with increases in suppressor tRNA concentration to the point where the ochre-suppressing tRNA(Ser) is in four- to fivefold excess over the endogenous tRNA(Ser). The subsequent suppressor activity plateau seems to be attributable to accumulation of unmodified tRNAs. These results define many salient variables for suppression in vivo, for example, for tRNA suppression employed as gene therapy for nonsense defects.
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PMID:Suppression of nonsense mutations in cell culture and mice by multimerized suppressor tRNA genes. 1075 96

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