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)

The M-CAT motif is a cis-regulatory DNA sequence that is essential for muscle-specific transcription of several genes. Previously, we had shown that both muscle-specific (A1) and ubiquitous (A2) factors bind to an essential M-CAT motif in the myosin heavy chain beta gene and that the ubiquitous factor is transcriptional enhancer factor (TEF)-1. Here we report the isolation of mouse cDNAs encoding two forms (a and b) of a TEF-1-related protein, TEFR1. The TEFR1a cDNA encodes a 427-amino acid protein. The coding region of TEFR1b is identical to 1a in both nucleotide and predicted amino acid sequence except for the absence of 43 amino acids downstream of the TEA DNA-binding domain. Three TEFR1 transcripts (approximately 7, approximately 3.5, and approximately 2 kilobase pairs) are enriched in differentiated skeletal muscle (myotubes) relative to undifferentiated skeletal muscle (myoblasts) and non-muscle cells in culture. In situ hybridization analysis indicated that TEFR1 transcripts are enriched in the skeletal muscle lineage during mouse embryogenesis. Transient expression of fusion proteins of TEFR1 and the yeast GAL4 DNA-binding domain in cell lines activated the expression of chloramphenicol acetyltransferase (CAT) reporter constructs containing GAL4 binding sites, indicating that TEFR1 contains an activation domain. An anti-TEFR1 polyclonal antibody supershifted the muscle-specific M-CAT.A1 factor complex in gel mobility shift assays, suggesting that TEFR1 is a major component of this complex. Our results suggest that TEFR1 might play a role in the embryonic development of skeletal muscle in the mouse.
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PMID:cDNA cloning and characterization of murine transcriptional enhancer factor-1-related protein 1, a transcription factor that binds to the M-CAT motif. 863 87

We have isolated and characterised the 5' region of a member of the carp myosin heavy chain gene family. Expression of this gene has previously been shown to be induced by an increase in environmental temperature and is restricted to the small-diameter white myotomal muscle fibres which are associated with growth. The whole isoform gene, including potential regulatory sequence 5' to the transcription start site and the 3' untranslated region was cloned in a lambda2001 bacteriophage vector. Studies of the structure of the 5'-end of the gene revealed high amino acid sequence similarity with translated exons 3-7 of mammalian myosin heavy chain genes indicating identical exon/intron boundaries. The overall length of the gene was however only about one half of that in mammals and birds due to shorter introns. The region 5' to the transcription unit was sequenced and revealed the presence of putative TATA and CCAAAT boxes. In order to study the regulation of expression, a series of endonuclease-generated fragments from the 5' flanking sequence were spliced to chloramphenicol acetyltransferase reporter vectors and used in cell transfection assays or direct gene injection into carp skeletal muscle. The 5' flanking region, which contains a consensus sequence known as an E-box (CANNTG) and a MEF2 binding site, was shown to improve the expression of the reporter gene in fish acclimated at 18 degrees C or 28 degrees C. Unlike the coding region, there was little similarity between the 5'-upstream sequence (promoter region) when compared with sequences flanking the 5'-end of the other myosin heavy chain genes in mammals or chicken.
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PMID:The characterisation of the 5' regulatory region of a temperature-induced myosin-heavy-chain gene associated with myotomal muscle growth in the carp. 866 10

The hypertrophic responses of white fast-twitch muscle to mechanical overload has been investigated using transgenic mice. After 7 wk of overload, endogenous beta-myosin heavy chain (MHC) and slow myosin light chain 1 and 2 (SMLC1, SMLC2) protein were increased in the overloaded plantaris (OP) muscle compared with sham-operated control plantaris (CP)muscle. Concurrently, the levels of endogenous beta-MHC, SMLC1, SMLC2, and cardiac/slow troponin C (CTnC) mRNA transcripts were significantly increased in OP muscles, whereas skeletal troponin C (sTnC) mRNA transcript levels decreased. As an initial attempt to locate DNA sequence(s) that governs beta-MHC induction in response to mechanical overload, multiple independent transgenic lines harboring four different human beta-MHC transgenes (beta 1286, beta 988, beta 450, beta 141) were generated. Except for transgene beta 141, muscle-specific expression and induction (3- to 22-fold) in OP muscles were observed by measuring chloramphenicol acetyltransferase activity (CAT assay). Induction of a SMLC1 transgene (3920SMLC1) in OP muscles was also observed. Collectively, these in vivo data provide evidence that 1) a mechanical overload inducible element(s) is located between nucleotides -450 and +120 of the human beta-MHC transgene, 2) 3,900 bp of 5' sequence is sufficient to confer mechanical overload induction of a SMLC1 transgene, and 3) the increased expression of slow/type I isomyosin (beta-MHC, SMLC1, SMLC2) in response to mechanical overload is regulated, in part, transcriptionally.
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PMID:Beta-MHC and SMLC1 transgene induction in overloaded skeletal muscle of transgenic mice. 892 39

The goal of the present study was to determine the molecular mechanism whereby transforming growth factor beta (TGFbeta) increases smooth muscle (SM) alpha-actin expression. Confluent, growth-arrested rat aortic smooth muscle cells (SMC) were transiently transfected with various SM alpha-actin promoter/chloramphenicol acetyltransferase deletion mutants and stimulated with TGFbeta (2.5 ng/ml). Results demonstrated that the first 125 base pairs of the SM alpha-actin promoter were sufficient to confer TGFbeta responsiveness. Three cis elements were shown to be required for TGFbeta inducibility: two highly conserved CArG boxes, designated A (-62) and B (-112) and a novel TGFbeta control element (TCE) (-42). Mutation of any one of these elements completely abolished TGFbeta-induced reporter activity. Results of electrophoretic mobility shift assays demonstrated that nuclear extracts from TGFbeta-treated SMC enhanced binding activity of serum response factor to the CArG elements and binding of an as yet unidentified factor to the TCE. Northern analysis showed that TGFbeta also stimulated transcription of two other SM (SM myosin heavy chain) differentiation marker genes, SM myosin heavy chain and h1 calponin, whose promoters also contained a TCE-like element. In summary, we identified a TGFbeta response element in the SM alpha-actin promoter that may contribute to coordinate regulation of expression of multiple cell-type specific proteins during SMC differentiation.
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PMID:A transforming growth factor beta (TGFbeta) control element drives TGFbeta-induced stimulation of smooth muscle alpha-actin gene expression in concert with two CArG elements. 909 54

Intramuscular injection of plasmid constructs promises to be an effective way of carrying out gene therapy for muscle disorders as well as using muscle as an in vivo expression system for disorders that involve the gene product being secreted into the bloodstream. The effectiveness of this method depends on the design of the cassette used for the expression of the cDNA of the introduced gene. We tested the levels of expression achieved by a number of muscle-specific promoters and a myosin light chain enhancer when spliced to the reporter gene chloramphenicol acetyltransferase (CAT), in vitro and in vivo by injection into fast and slow muscles of the mouse. The results show that the highest levels of expression are achieved by a combination of a truncated myosin heavy chain promoter and the enhancer, and that a whole range of expression levels is obtained with the other combinations tested. The data show that a cassette based on these elements should provide efficient vectors for the introduction and expression of genes following intramuscular injection of naked DNA.
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PMID:Myosin regulatory elements as vectors for gene transfer by intramuscular injection. 961 76


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