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)

We have produced transgenic mice that express the prokaryotic marker protein chloramphenicol acetyltransferase under the control of regulatory sequences derived from the rat atrial natriuretic factor gene. The transgene, which contains 2.4 kilobases of the rat atrial natriuretic factor gene regulatory region, was found to direct 4000-fold more chloramphenicol acetyltransferase expression in adult atria than in ventricles. Low-level activity was also detected in the hypothalamus, demonstrating that these sequences contain the signals necessary for cardiac and central nervous system expression of the hormone atrial natriuretic factor. Developmental analyses showed early, high-level transgene expression in fetal atrial and ventricular tissues but marked reduction of ventricular transgene expression following birth. Further, the developmental expression patterns of the endogenous murine atrial natriuretic factor gene and rat transgene were found to be quite distinct. Although both the rat and mouse atrial natriuretic factor genes are activated early in embryogenesis, perinatal ventricular expression appears to differ in these two rodent species. The transgene is expressed in a pattern analogous to the neonatal rat rather than the endogenous murine gene. These studies demonstrate that the cis-acting signals required for correct tissue specificity and developmental regulation of the rat atrial natriuretic factor gene are encoded in this 2.4-kilobase fragment and that these sequences act in a dominant fashion.
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PMID:cis-dominance of rat atrial natriuretic factor gene regulatory sequences in transgenic mice. 172 47

Elements controlling tissue-specific expression of the human atrial natriuretic factor gene have been examined in primary cultures of neonatal rat cardiocytes. When a 68-base pair fragment from human atrial natriuretic factor (hANF) 5'-flanking sequence (positions -400 to -333) was placed upstream from the herpes simplex thymidine kinase promoter linked to a bacterial reporter gene (chloramphenicol acetyltransferase), a tissue-specific positive regulatory effect was observed in atrial as well as ventricular cardiocytes but not in nonmyocardial cells. The cis-acting element in this fragment was orientation- and position-dependent. Examination of nuclear protein extracts for the presence of factors capable of interacting with the 5'-flanking sequence of the hANF gene revealed a cardiocyte-specific factor which bound to the 68-base pair fragment. This association was both tissue- and sequence-specific. These findings indicate that a cis-acting element present in the proximal 5'-flanking sequence confers tissue-specific expression upon the hANF gene, possibly through association with a cardiac-specific nuclear protein.
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PMID:Tissue-specific determinants of human atrial natriuretic factor gene expression in cardiac tissue. 252 32

Nucleotide sequences necessary to direct transcription of the gene encoding atrial natriuretic factor (ANF) in neonatal and fetal hearts have been defined by using expression of the prokaryotic marker gene chloramphenicol acetyltransferase (CAT) as a functional assay. Hybrid ANF-CAT genes were introduced into primary cultured cardiocytes by electroporation. A 3.4-kilobase (kb) fragment containing sequences on the 5' side of the ANF gene promoted significant CAT activity in atrial but not ventricular cardiocytes derived from 1-day-old rats. Deletion analysis of putative regulatory regions demonstrated that 2.4 kb of 5' ANF sequences were sufficient for high-level atrial transcription, whereas hybrid genes containing less than 700 base pairs of ANF sequences promoted less CAT activity. Cardiocytes derived from embryonic ventricles expressed the 3.4-kb ANF-CAT hybrid gene at levels comparable to atrial cells, suggesting that the nucleotide sequences controlling developmental regulation of ANF expression are contained in this 5' region. Nucleotide sequence analysis of this 3.6-kb region identified segments that may contribute to the regulated expression of the ANF gene.
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PMID:Cis-acting sequences that modulate atrial natriuretic factor gene expression. 296 98

Human atrial natriuretic factor [ANF(1-28)] has been isolated from a fusion protein produced in Escherichia coli. ANF(1-28) was linked to a naturally occurring E. coli protein, chloramphenicol acetyltransferase, via unique cleavage sequences susceptible to either human thrombin digestion, or the chemical action of 2-(2-nitrophenylsulphenyl)-3-methyl-3'-bromoindolenine (BNPS-skatole). The linker sequences were Gly-Val-Arg-Gly-Pro-Arg and Trp respectively. The liberated ANF was purified by reversed-phase HPLC. Optimised cleavage conditions released 5-10% (by mass) of the maximal yield of ANF(1-28) from the fusion protein with the thrombin-susceptible linker, whilst a 2-5% (by mass) yield was observed from the fusion protein with the tryptophan linker after BNPS-skatole treatment. The purified cleavage products were biologically active and shown to comprise intact ANF(1-28). Fast-atom-bombardment mass spectrometry confirmed [MH]+ of 3079 m/z, consistent with ANF(1-28).
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PMID:The isolation and characterisation of human atrial natriuretic factor produced as a fusion protein in Escherichia coli. 296 45

Recombinant fusion proteins containing human atrial natriuretic factor, ANF(1-28) joined to chloramphenicol acetyltransferase (CAT) via cleavable linker sequences have been produced in Escherichia coli. The linker sequences were designed to allow the release of authentic ANF(1-28) following proteolytic cleavage by enterokinase or thrombin, or chemical cleavage with 2-(2-nitrophenylsulphenyl)-3-methyl-3'-bromoindolenine. Proteins, containing ANF(1-28) fused to the carboxyl-terminal region of CAT (using the ScaI restriction site in the cat gene), were largely soluble in E. coli and were obtained in higher yield than analogues containing ANF(1-28) linked to shorter CAT sequences. The longer derivatives also retained CAT activity allowing subsequent purification by affinity chromatography.
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PMID:Expression of atrial natriuretic factor as a cleavable fusion protein with chloramphenicol acetyltransferase in Escherichia coli. 296 46

Atrial natriuretic peptide (ANP) is a potent diuretic, natriuretic, and vasorelaxant hormone that is expressed early in ventricular hypertrophy. Expression of human ANP is controlled by a series of regulatory elements located in the 5' flanking sequence of its gene. We generated a series of 5' deletion mutations extending from -2600 to -1150 relative to the transcription start site and linked them to a chloramphenicol acetyltransferase reporter gene. Using transient transfection analysis, we have identified a negative regulatory element between -1206 and -1152 relative to the start site. Each of a series of 5' deletion mutants, when introduced into fibroblast cultures, expressed the reporter function at a level that was significantly less (< 20%) than that seen with the -1152 reporter construct, whereas comparably transfected atrial cardiocytes demonstrated no change in reporter activity, implying that the repressor function is specific to cell type. The critical region (from -1206 to -1152) associates with a soluble protein present in cardiac fibroblast extracts in a sequence-specific fashion. Deoxyribonuclease I footprint analysis demonstrated the presence of several protected regions, including one that overlies an E-box motif (CAACTG), an element that in other systems has been implicated in promoting differentiation in the myocyte lineage. Site-directed mutagenesis of the E-box motif suppressed both the protein-binding and inhibitory activities of the 54-bp fragment. In summary, we have found a region in the 5' flanking sequence of the human ANP gene that represses transcriptional activity in nonmyocardial cells. This element may play an important role in the restriction of ANP gene expression to cardiac myocytes.
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PMID:An E-box motif conveys inhibitory activity on the atrial natriuretic peptide gene. 870