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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 expression of the nicotinic acetylcholine receptor (AChR) in vertebrate striated muscle is regulated both during development and in response to nerve-evoked muscle activity. To define DNA sequences necessary for the transcriptional regulation of the mouse alpha-subunit AChR gene, we have isolated and analyzed the alpha-gene 5'-flanking region. Primer extension and RNase protection analysis showed that transcription initiates at 2 major and 12 minor sites close to the translational initiation site. Using a series of plasmids in which segments of the 5'-flanking region were linked to the bacterial
chloramphenicol acetyltransferase
(
CAT
) gene, we have defined an 86-base pair enhancer sequence that is active in C2 myotubes but not in C2 myoblasts or NIH3T3 fibroblasts. This enhancer contains three putative binding sites for myoD1, and the 5'-upstream regions linked to
CAT
were transactivated by the muscle regulatory factors, myoD1, and myogenin. Transactivation by MRF4 differed with the specific alpha-subunit construct tested. Whereas the alpha-subunit
CAT
constructs containing both the homologous as well as the heterologous
myosin light chain 1
promoter were transactivated by myoD1 and myogenin, only the constructs containing their homologous promoter were transactivated by MRF4. Thus, an 86-base pair sequence of the alpha-subunit gene contains the information necessary for developmental specificity and responsiveness to myogenic factors.
...
PMID:A developmental and tissue-specific enhancer in the mouse skeletal muscle acetylcholine receptor alpha-subunit gene regulated by myogenic factors. 165 1
In transgenic mouse embryos, expression of a muscle-specific reporter, consisting of a
chloramphenicol acetyltransferase
gene linked to regulatory sequences from the rat
myosin light chain 1
/3 locus (MLC-CAT), is graded in developing axial muscles along the rostrocaudal axis and in cell cultures derived from these muscles. Here we demonstrate that maintenance of positional differences in MLC-CAT transgene expression cannot be attributed to differences in the transcriptional competence of corresponding muscles. Rather, patterns of transgene expression are reflected in the extent of CpG demethylation of both MLC1 promoter and MLC enhancer sequences. Variations in reporter gene expression can be reconstituted by in vitro methylation of specific CpGs in transfected MLC-CAT DNA. As the MLC-CAT transgene is activated during embryogenesis, demethylation of the MLC1 promoter lags behind that of the downstream MLC enhancer, which appears to be the initial target for epigenetic modification. In developing somites, demethylation of the transgenic MLC enhancer is not graded and therefore does not reflect early regional differences in MLC-CAT transgene expression patterns. These studies implicate selective methylation in the maintenance rather than in the establishment of transcriptional differences in developing muscles.
...
PMID:Role of methylation in maintenance of positionally restricted transgene expression in developing muscle. 763 67
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.
...
PMID:Beta-MHC and SMLC1 transgene induction in overloaded skeletal muscle of transgenic mice. 892 39
Non-weight-bearing (NWB) activity [space flight and hindlimb suspension (HS)] results in the loss of soleus muscle mass, a slow-to-fast fiber-type conversion, and decreased beta-myosin heavy chain (beta-MHC) protein and mRNA expression. To identify beta-MHC promoter sequences required for decreased beta-MHC expression in response to HS, we have modified an existing noninvasive hindlimb unweighting model to accommodate the use of (transgenic) mice. After 2 wk of HS, body and muscle (soleus > gastrocnemius > plantaris) weights were decreased as was the proportion of histochemically classified type I fibers in HS soleus muscle. Northern blot analysis revealed decreases in endogenous mRNA representing beta-MHC, slow
myosin light chain 1
and 2, and cardiac/slow troponin C, whereas those representing skeletal troponin C, muscle creatine kinase, and glyceraldehyde-3-phosphate dehydrogenase increased. Protein extracts prepared from HS soleus (SS) muscle of mice harboring transgenes comprised of 5.6 or 0.6 kilobase of wild type (wt) mouse beta-MHC promoter (beta 5.6 wt, beta 0.6wt) and those carrying the simultaneous mutation (mut) of the MCAT, C-rich, and beta e3 subregions (beta 5.6mut3, beta 0.6mut3) revealed decreases in
chloramphenicol acetyltransferase
(
CAT
) specific activity relative to respective controls. Decreased
CAT
mRNA was observed for transgene beta 5.6mut3, line 85. Two weeks of the simultaneous imposition of mechanical overload (synergist ablation) and HS (MOV/HS) countermanded the loss in absolute and normalized SS weight but did not decrease beta 0.6wt transgene expression. These transgenic results demonstrate that regulatory sequences within a 600-base pair beta-MHC promoter are sufficient to direct decreased transcription of beta-MHC transgenes after 2 wk of HS.
...
PMID:beta-MHC transgene expression in suspended and mechanically overloaded/suspended soleus muscle of transgenic mice. 917 47
