Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.1 (S1 nuclease)
 3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fast skeletal muscle troponin C (sTnC) is the calcium-binding subunit of the myofibrillar thin filament that regulates excitation-contraction coupling. Utilizing a polymerase chain reaction cloning strategy, we have isolated cDNA clones encoding murine sTnC. The 160-amino acid sTnC protein shares 70% amino acid sequence identity with the slow/cardiac isoform of troponin C (cTnC). However, three areas of significant sequence divergence were identified. Southern blot analyses demonstrated that murine sTnC is encoded by a single copy gene that is distinct from that which encodes cTnC. Northern blot analyses showed that the sTnC gene is expressed exclusively in skeletal muscle (extensor digitorum and anterior tibialis) and not in neonatal or adult heart, brain, kidney, liver, lung, or testes. Studies of the murine C2C12 myoblast cell line demonstrated that sTnC gene expression is developmentally regulated during the differentiation of these myoblasts into myotubes. A full-length murine sTnC genomic clone was isolated and characterized by DNA sequence, primer extension, and S1 nuclease protection analyses. The sTnC gene is composed of six exons spanning 2.6 kilobase pairs of genomic DNA. Although the introns do not divide the gene into functional domains, the intron-exon borders are nearly identical to those of the other members of the troponin C multigene family. Transient transfection assays using chloramphenicol acetyltransferase reporter plasmids demonstrated that the sTnC promoter alone is relatively inactive in muscle cells and that high level sTnC gene expression in these cells is controlled by a potent transcriptional enhancer element located within the first intron of the gene. In additional transfection experiments, the sTnC enhancer was shown to display three important biological activities. (i) It was required for high level transcription from the sTnC promoter in muscle cells; (ii) its activity was muscle cell specific; and (iii) its activity was developmentally regulated during the differentiation of C2C12 myoblasts to myotubes. Taken together, these data define the sTnC gene as an excellent model system for studies of developmentally regulated gene expression in skeletal muscle.
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PMID:The structure and regulation of expression of the murine fast skeletal troponin C gene. Identification of a developmentally regulated, muscle-specific transcriptional enhancer. 239 55

Cardiac troponin C (cTnC) is the calcium-binding subunit of the myofibrillar thin filament that regulates excitation-contraction coupling in cardiac muscle. We have utilized a novel polymerase chain reaction cloning procedure to isolate cDNA clones encoding murine cTnC. Murine cTnC is a 161-amino acid polypeptide that has been highly conserved during evolution. Southern blot analyses demonstrated that the cTnC gene is a member of a multigene family. Northern blot analyses revealed that the cTnC gene is expressed in murine cardiac tissue and slow skeletal muscle (soleus), but is not expressed in fast skeletal muscle (extensor digitorum longus and anterior tibialis) or in neonatal or adult brain, kidney, lung, liver, or testis. In addition, while the cTnC gene is not expressed in murine C2C12 myoblasts, differentiation of these cells into myotubes was shown to result in a dramatic induction of cTnC gene expression. A full length cTnC genomic clone was isolated from a murine genomic library by hybridization with a cTnC cDNA probe and structurally characterized by DNA sequence, primer extension, and S1 nuclease protection analyses. The cTnC gene is 3.4 kilobase pairs long and is composed of six exons. The introns do not appear to divide the gene into functional domains. Analysis of the 5'-flanking region of the gene revealed the presence of a consensus TATA box 24 base pairs 5' of the transcription start site. Despite the finding that the gene is expressed only in cardiac and slow skeletal muscle, it lacks the previously described CArG and M-CAT transcriptional regulatory sequence motifs that are involved in regulating the expression of a number of other myofibrillar genes.
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PMID:Structure and expression of the murine slow/cardiac troponin C gene. 275 13

Regulation of slow troponin C gene expression was examined in both skeletal and cardiac muscle at various stages of development in chicken. The steady-state levels of troponin C mRNA were initially measured by Northern blot analysis. It was observed that the level of troponin C mRNA reached its maximum in both skeletal and cardiac muscle of 16- to 18-day-old embryos. A drop in troponin C mRNA level was observed just prior to hatching. The level of actin mRNA, myosin heavy chain mRNA, and mRNA for a nonmuscle protein, vimentin, was also similarly regulated during development of chicken muscles. Further studies were carried out to determine the level of slow troponin C mRNA using nuclease S1 protection analysis. A significant amount of slow troponin C mRNA was found in the skeletal muscle of adult chicken, which predominantly consists of the fast isoform of troponin C. This observation suggests the possibility of post-transcriptional control of slow troponin C synthesis in skeletal muscle. Primary cultures of cardiac myocytes were also used to determine how the troponin C mRNA level is regulated in a culture of cardiac muscle cells. Measurements of the steady-state levels of slow troponin C mRNA by nuclease S1 protection analysis show that it was maximal in 60-h-old cultures. A drop in the level of this mRNA was observed after these cells were maintained in culture for 4 days.
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PMID:Developmentally regulated slow troponin C messenger RNA in chicken skeletal and cardiac muscles. 284 45