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 mRNA encoding the sarcoplasmic reticulum (SR) Ca2+ ATPase is highly influenced by thyroid hormone (T3) in the hearts of intact animals. We show here that this effect of T3 can be mimicked in primary neonatal rat cardiocytes, both in serum-containing and in serum-free media; the expression of SR Ca2+ ATPase mRNA is myocyte-specific and is also modulated by retinoic acid (RA). RA also induces myosin heavy chain (MHC) alpha-mRNA in this system. The induction of Ca2+ ATPase mRNA is sensitive to T3 (EC50 approximately 30 pM) and less sensitive to RA (EC50 approximately 2 nM). Transient transfection experiments utilizing various segments of the Ca2+ATPase promoter fused to the reporter gene chloramphenicol acetyltransferase (CAT) indicate a minimal thyroid hormone response element (TRE) between nucleotides -262 and -322, while sequences between -322 and -559 are required for maximal trans-activation. RA is not able to regulate these constructs. Likewise, a clear effect of T3 but no effect of RA was observed when the CAT gene was driven by a TRE derived from the rat alpha-MHC gene. In contrast, CAT expression was induced by either hormone when placed under the control of a synthetic palindromic TRE. Taken together, these results indicate that T3 and RA induce gene expression in primary cardiac myocytes, but through distinct response elements and/or mechanisms.
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PMID:Influence of thyroid hormone and retinoic acid on slow sarcoplasmic reticulum Ca2+ ATPase and myosin heavy chain alpha gene expression in cardiac myocytes. Delineation of cis-active DNA elements that confer responsiveness to thyroid hormone but not to retinoic acid. 182 23

We have isolated three overlapping genomic clones extending over 39 kilobases (kb), which encodes the rabbit cardiac sarco(endo)plasmic reticulum Ca2(+)-ATPase gene (SERCA2). S1 nuclease mapping and primer extension analysis of the 5' end of the cardiac/slow-twitch (SERCA2a) and smooth/non-muscle (SERCA2b) mRNAs showed that both transcripts are initiated from the same transcription initiation site, located 528 base pairs (bp) upstream of the translation initiation codon AUG. The putative promoter revealed a "TATA box" like element at -24 bp and a "CAAT box" at -78 bp relative to the cap site. A number of DNA sequence elements that could bind trans-acting factors were also found within the 1.8 kb of DNA sequence upstream from the transcription initiation site. To determine the DNA sequences governing transcriptional regulation, we have stably transfected the myogenic cell line C2C12 with a plasmid containing the putative promoter and 946 bp upstream sequence of the SERCA2 gene, coupled to the chloramphenicol acetyltransferase gene. Our results show that this chimeric plasmid construct exhibits appropriate activation and coordinate expression with the endogenous SERCA2 gene during the terminal differentiation of myoblasts into myotubes, suggesting that it contains the promoter and upstream sequence elements required for the regulated expression of the SERCA2 gene.
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PMID:Characterization of rabbit cardiac sarco(endo)plasmic reticulum Ca2(+)-ATPase gene. 213 26

A consensus sequence in parvovirus nonstructural protein NS1 has been predicted to be an ATP-binding domain associated with an ATPase and a DNA helicase activity. To investigate the function of NS1 in viral gene expression, a site-directed mutagenesis converting NS1 lysine 405 to serine in parvovirus H-1 was carried out by the polymerase chain reaction. As shown previously, a parvovirus genome containing a deleted NS1 gene was excised from a bacterial plasmid and replicated when a wild-type NS1 gene was provided in trans but failed to be excised and replicate when the mutant NS1 gene was supplied. Interestingly, the serine 405 mutation totally lost the activity of trans activation on the virus late promoter (P38) in a chloramphenicol acetyltransferase (CAT) assay and it lost evidence for cytotoxicity in two tumor cell lines (HeLa Gey and NB324K). The serine 405 NS1 protein was translocated normally to the nucleus. These results suggest that the NS1 lysine 405 of H-1 in its putative purine nucleotide-binding site is essential for viral DNA replication and that this domain may be involved in the regulation of the P38 promoter by an unknown mechanism. The loss of NS1 cytotoxicity on tumor cells suggests that NS1 expression is the major cause of cell killing by parvoviruses, which may facilitate further study of the mechanism of oncosuppression by parvoviruses.
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PMID:Mutation of lysine 405 to serine in the parvovirus H-1 NS1 abolishes its functions for viral DNA replication, late promoter trans activation, and cytotoxicity. 214 94

The Na,K-ATPase is an integral plasma membrane protein consisting of alpha and beta subunits, each of which has discrete isoforms expressed in a tissue-specific manner. Of the three functional alpha isoform genes, the one encoding the alpha 3 isoform is the most tissue-restricted in its expression, being found primarily in the brain. To identify regions of the alpha 3 isoform gene that are involved in directing expression in the brain, a 1.6 kb 5'-flanking sequence was attached to a reporter gene, chloramphenicol acetyltransferase (CAT). The alpha 3-CAT chimeric gene construct was microinjected into fertilized mouse eggs, and transgenic mice were produced. Analysis of adult transgenic mice from different lines revealed that the transgene is expressed primarily in the brain. To further delineate regions that are needed for conferring expression in this tissue, systematic deletions of the 5'-flanking sequence of the alpha 3-CAT fusion constructs were made and analyzed, again using transgenic mice. The results from these analyses indicate that DNA sequences required for mediating brain-specific expression of the alpha 3 isoform gene are present within 210 bp upstream of the transcription initiation site. alpha 3-CAT promoter constructs containing scanning mutations in this region were also assayed in transgenic mice. These studies have identified both a functional neural-restrictive silencer element as well as a positively acting cis element.
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PMID:The presence of both negative and positive elements in the 5'-flanking sequence of the rat Na,K-ATPase alpha 3 subunit gene are required for brain expression in transgenic mice. 798 27

The rabbit cardiac/slow twitch muscle sarcoplasmic reticulum (SR) Ca2+ ATPase (SERCA2) gene encodes a Ca2+ transport pump whose expression is regulated during skeletal/cardiac muscle development and by different pathophysiological states of the heart. This study was designed to delineate cis-acting regulatory elements involved in SERCA2 gene expression. A series of unidirectionally deleted fragments of the upstream 1,460 bp SERCA2 promoter were linked to the chloramphenicol acetyltransferase (CAT) reporter gene. Transient DNA transfection experiments performed with these constructs in C2C12 muscle cells and NIH3T3 fibroblasts revealed a 17 bp upstream promoter element (UPE) important for transcription of the SERCA2 gene in skeletal muscle cells. These studies have also identified a strong (muscle specific) negative regulatory region located upstream of nucleotide -658. Gel mobility shift and southwestern analyses using the 17 bp UPE have revealed a specific DNA binding complex referred to as Ca2+ ATPase promoter factor -1 (CaPF1). The binding factor has an approximate M(r) of 43 kDa. Comparison of CaPF1 with known transcription factors suggests that the CaPF1 complex may be a novel DNA-binding transcription factor which plays a role in SERCA2 gene regulation in vivo.
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PMID:Analysis of the rabbit cardiac/slow twitch muscle sarcoplasmic reticulum calcium ATPase (SERCA2) gene promoter. 833 69

Mechanical overload leads to hypertrophy, increased type I fiber composition, and beta-myosin heavy chain (beta-MHC) induction in the fast-twitch plantaris muscle. To better understand the mechanism(s) involved in beta-MHC induction, we have examined inducible expression of transgenes carrying the simultaneous mutation of three DNA regulatory subregions [muscle CAT (MCAT), C-rich, and beta e3] in the context of either 5,600-base pair (bp; beta 5.6mut3) or 600-bp (beta 0.6mut3) beta-MHC promoter in overloaded plantaris muscles of transgenic mice. Protein extract from mechanically overloaded plantaris muscle of mice, harboring either mutant transgene beta 5.6mut3 or beta 0.6mut3, showed an unexpected 2.8- to 4.5-fold increase in chloramphenicol acetyltransferase (CAT) specific activity relative to their respective controls. Similar results were obtained with wild-type (wt) beta-MHC transgenes (beta 5.6wt, beta 0.6wt). Histochemical staining for both myofibrillar ATPase and CAT activity and CAT immunohistochemistry revealed a striking increase in type I fibers and that CAT expression was restricted to these fibers in overloaded plantaris muscle of beta 5.6mut3 transgenic mice. Our transgenic data suggest that beta-MHC transgenes, and perhaps the endogenous beta-MHC gene, are induced by mechanical overload via a mechanism(s) that does not exclusively require the MCAT, C-rich, or beta e3 subregions.
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PMID:Induction of beta-MHC transgene in overloaded skeletal muscle is not eliminated by mutation of conserved elements. 877 11

Occipital horn syndrome (OHS), an X-linked connective tissue disorder, has recently been shown to result from mutations in the Menkes disease gene (MNK), which encodes a copper-transporting ATPase. By Southern analysis we detected a small deletion in a region 5' to the MNK gene in one patient with OHS. Genomic clones from an unaffected individual were isolated and sequenced, revealing three tandem 98 bp repeats situated upstream of the reported transcription start site, and analysis of the patient's DNA showed a deletion of one of the repeats. The deletion is likely to be responsible for the disease in this patient, as it was not observed in 110 unaffected individuals analyzed, and no other mutation in the patient was detected by RT-PCR and chemical cleavage mismatch analysis or by cDNA sequence analysis. The deletion is associated with a dramatic decrease in expression of a chloramphenicol acetyltransferase reporter gene, implicating the repeat sequences in regulation of MNK expression, although a quantitative analysis of MNK mRNA from a cell line derived from the patient shows no detectable reduction. Other experiments revealed no effect on the site of transcription initiation, termination or on splicing.
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PMID:A repeated element in the regulatory region of the MNK gene and its deletion in a patient with occipital horn syndrome. 892 1

The early and sustained deinduction of alpha 2 Na,K-ATPase gene expression in both cardiac left ventricle and aorta in various pressure-overload rat models and in hypertrophied human heart suggests a common transcriptional pressure response mechanism to pressure overload in both rats and humans. To test this hypothesis, we developed transgenic rat lines expressing the chloramphenicol acetyltransferase reporter gene regulated by the human alpha 2 Na,K-ATPase (-798 to +67) regulatory region, H alpha 2-CAT. Analysis of two homozygous transgenic rat lines revealed (1) parallel tissue-specific regulation of the H alpha 2-CAT transgene and rat alpha 2 Na,K-ATPase gene and (2) parallel load-induced deinduction of both cardiac and vascular (aortic) H alpha 2-CAT transgene and rat alpha 2 Na,K-ATPase gene expression in a 3-day model of induced pressure overload. Cardiac H alpha 2-CAT deinduction was detected at a systolic pressure greater than or equal to 150 mm Hg and correlated with the degree of systolic pressure elevation (r = .82, P < .0001). The data suggest a systolic pressure gradient-dependent coordinate pressure-overload transcriptional response mechanism in the heart and aorta, with one of its target genes being the alpha 2 Na,K-ATPase gene in both humans and rats.
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PMID:Pressure-overload deinduction of human alpha 2 Na,K-ATPase gene expression in transgenic rats. 904 Apr 46

On the basis of paradigms in development wherein discrete transcriptional events are pivotal regulatory steps, we tested the hypothesis that transcriptional sodium (Na+)-response mechanisms are involved in in vivo Na+-induced responses relevant to normal (homeostatic) and pathophysiological (salt-sensitive hypertension) conditions. We used Na,K-ATPase alpha-subunit genes as molecular probes and the Na+ ionophore monensin to induce a dose-specific incremental increase in [Na+]i in rat A10 embryonic aortic smooth muscle cells. RNA blot analysis of rat A10 cells revealed a dose-specific (0.022 to 30 micromol/L monensin) upregulation of alpha1-, alpha2-, and beta1-subunit Na,K-ATPase RNA levels. Control beta-actin and alpha-tropomyosin RNA levels did not change. With the use of chloramphenicol acetyltransferase (CAT) as reporter gene, CAT assays of rat alpha1[-1288]CAT and human alpha2[-798]CAT promoter constructs exhibited induction of CAT activity in monensin (10 micromol/L)-treated A10 cells compared with untreated A10 cells. Promoter deletion constructs for rat alpha1[-1288]CAT defined a positive Na+-response regulatory region within -358 to -169 that is distinct from the basal transcriptional activation region of -155 to -49 previously defined. Similarly, a positive Na+-response regulatory region is delimited to within -301 in the human alpha2 Na,K-ATPase 5' flanking region. Analysis of transgenic TgH alpha2[-798]CAT rats demonstrated sodium activation of human alpha2[-798]CAT transgene expression in aorta parallel to observations made in rat A10 aortic tissue culture cells. Southwestern blot analysis of nuclear extracts from monensin (10 micromol/L)-treated and control untreated A10 cells revealed a nuclear DNA binding protein (approximately 95 kD) that is upregulated by increased [Na+]i. These data provide initial characterization of a transcriptional Na+-response mechanism delimiting a positive Na+-response regulatory region in two target genes (alpha1 and alpha2 Na,K-ATPase) as well as detection of a Na+-response nuclear DNA binding protein. The in vitro data are corroborated by in vivo experimental and transgenic promoter expression studies, thus validating the biological relevance of the observations.
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PMID:Characterization of a sodium-response transcriptional mechanism. 926 Sep 79

The Enterococcus hirae ntp operon encodes both a vacuolar ATPase, which transports Na+ as well as Li+, and the KtrII K+ transporter. A plasmid, in which the chloramphenicol acetyltransferase gene (CAT) was placed downstream of the ntp promoter, was introduced into a mutant totally defective in Na+ extrusion. The CAT activity of this transformant was increased preferentially by addition of NaCl, but not by LiCl, in the media or by elevating the medium pH, correlating well with the increase in amounts of the ATPase subunits observed by Western blotting. The physiological significance of these responses of the ntp promoter is discussed.
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PMID:Enterococcus hirae vacuolar ATPase is expressed in response to pH as well as sodium. 1041 97

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