EC:3.1.27.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fish electric organ is a skeletal muscle homolog in which many muscle-specific genes are inhibited while acetylcholine receptor is expressed at high levels. The molecular mechanisms underlying this discoordinate regulation have not yet been explored. We have obtained partial sequences for MyoD, myogenin, and myf5 from Torpedo californica and have measured their mRNAs in several organs, using ribonuclease protection. We have found that MyoD and myf5 are expressed at comparable levels in muscle and electric organ, whereas myogenin transcripts could not be detected in either tissue. Acetylcholine receptor alpha subunit mRNA, on the other hand, is two orders of magnitude more abundant in electric tissue. We conclude that neither the loss of contractile proteins from, nor the enhanced expression of acetylcholine receptor genes in, the differentiating electrocyte is a simple consequence of the abundance of myogenic factor messages.
...
PMID:Expression of myogenic factors in skeletal muscle and electric organ of Torpedo californica. 132 28

1. We have prepared probes specific for the chicken myogenic determination genes MyoD, myogenin, myf5, and herculin and have investigated the expression of these genes in response to denervation and acute electrical stimulation in neonate chick muscle, using ribonuclease protection. 2. Upon denervation, herculin mRNA remains essentially unchanged, myf5 transcript levels approximately double, and MyoD message is up-regulated by two- to fivefold. In contrast, the message coding for myogenin, barely detectable in innervated muscle, rises dramatically (approximately 200-fold) on the second day after nerve section; in this respect it resembles acetylcholine receptor (AChR) alpha-, gamma- and delta-subunit mRNAs. Cohybridization experiments reveal that the increase in myogenin mRNA slightly precedes the rise in AChR alpha-subunit message. 3. Electrical stimulation of denervated muscle leads to an immediate decline in myogenin and AChR alpha-subunit mRNAs, with half-lives of less than an hour and approximately 4 hr, respectively; message stability measurements suggest that this is effected through a rapid shutdown of transcription. Messages coding for MyoD, myf5, and herculin decay much more slowly, as a result of slower turnover. 4. Previous experiments have indicated the involvement of a de novo induced (Tsay, H.-J., Neville, C. M., and Schmidt, J., FEBS Lett. 274:69-72, 1990) autocatalytic (Neville, C. M., Schmidt, M., and Schmidt, J., NeuroReport 2:655-657, 1991) transcription factor in the denervation-triggered up-regulation of AChR alpha-subunit expression; the denervation and electrical stimulation experiments reported here are compatible with the notion that myogenin is that factor.
...
PMID:Response of myogenic determination factors to cessation and resumption of electrical activity in skeletal muscle: a possible role for myogenin in denervation supersensitivity. 133 17

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

A glycoprotein purified from chick brain, of relative molecular mass 42,000, increases the rate of appearance of acetylcholine receptors (AChRs) on the surface of chick myotubes. RNase protection assays have shown that this AChR-inducing activity (ARIA) increases the amount of mRNA encoding the alpha-subunit of the AChR, with little or no effect on the amounts of gamma- and delta-mRNAs2. Here, we report that the mRNAs encoding the alpha- and gamma-subunits of the receptor detected by in situ hybridization are concentrated around nuclei in cultured myotubes. Consistent with previous results, ARIA selectively increased the amount of alpha-subunit mRNA, but we now find that all nuclei were not activated to the same extent, with a substantial number not responding at all. Assuming that ARIA is released by motor nerve terminals, our results indicate that only a subset of muscle nuclei are capable of contributing to the accumulation of AChRs at developing neuromuscular junctions.
...
PMID:Differential activation of myotube nuclei following exposure to an acetylcholine receptor-inducing factor. 291 51

The postsynaptic membrane of vertebrate neuromuscular synapses is enriched in the four subunits of the acetylcholine receptor (AChR) and in a peripheral membrane protein of Mr = 43 x 10(3) (43K). Although AChRs are virtually restricted to the postsynaptic membrane of innervated adult muscle, developing and denervated adult muscle contain AChRs at nonsynaptic regions. These nonsynaptic AChRs accumulate because the level of mRNA encoding AChR subunits increases in response to a loss of muscle cell electrical activity. We have determined the level of mRNA encoding the 43K subsynaptic protein in developing muscle and in innervated and denervated adult muscle. We isolated a cDNA that encodes the entire protein-coding region of the 43K subsynaptic protein from Torpedo electric organ and used this cDNA to isolate a cDNA that encodes the 43K subsynaptic protein from Xenopus laevis. We used the Xenopus cDNA to measure the level of transcript encoding the 43K protein in embryonic muscle and in innervated and denervated adult muscle by RNase protection. The level of transcript encoding the 43K protein is low in innervated adult muscle and increases 25- to 30-fold after denervation. The level of transcript encoding the alpha subunit of the AChR increases to a similar extent after denervation. Moreover, during development, transcripts encoding the 43K protein and the alpha subunit are expressed initially at late gastrula and are present in similar quantities in embryonic muscle. These results demonstrate that transcripts encoding the 43K protein and AChR subunits appear coordinately during embryonic development and that the level of mRNA encoding the 43K protein is regulated by denervation.
...
PMID:Regulation of transcript encoding the 43K subsynaptic protein during development and after denervation. 307 52

We used the DNase I-hypersensitive sites around the mouse acetylcholine receptor delta-subunit gene as a guide toward the cloning and sequencing of delta and gamma transcriptional regulatory regions and as a means to assess chromatin structural activation of the delta- and gamma-subunit genes during myogenesis. Genomic cloning of hypersensitive sites downstream of the delta-subunit gene revealed the presence of the gamma-subunit gene approximately 5 kilobases away; the hypersensitive sites mapped to the 5' end of the gamma-subunit gene. Sequence comparison of restriction fragments containing hypersensitive sites in analogous locations at the 5' ends of the delta- and gamma-subunit genes uncovered little overall homology between the two genomic fragments; however, an 11- of 13-base-pair match between the two sequences was found. Homologs to this sequence were also found to be present in the upstream regions of the chicken alpha- and mouse beta-subunit genes. By RNase protection and primer extension analyses, the delta-subunit gene transcription start site was mapped to 56 base pairs upstream of the initiator ATG codon. Clonal cell lines with various potentials to differentiate to the skeletal muscle phenotype were examined for their hypersensitive site pattern within the delta-gamma locus. Only remote hypersensitive sites flanking the locus appear in pluripotential mesodermal cells. A cell line of determined but inducible myoblasts expressed only one more intergenic site, while in permissively differentiating myoblasts hypersensitive sites were already present at the 5' ends of the delta and gamma genes prior to differentiation. Terminal differentiation resulted in an identical pattern of hypersensitive sites in all muscle cell lines examined so far, with an intergenic site near the gamma-subunit gene being the only site specific to the differentiated muscle phenotype.
...
PMID:Stepwise activation of the mouse acetylcholine receptor delta- and gamma-subunit genes in clonal cell lines. 324 54

The level of transcripts encoding the skeletal muscle acetylcholine receptor (AChR) was determined during embryonic development in Xenopus laevis. cDNAs encoding the alpha, gamma, and delta subunits of the Xenopus AChR were isolated from Xenopus embryo cDNA libraries using Torpedo AChR cDNAs as probes. The Xenopus AChR cDNAs have greater than 60% amino acid sequence homology to their Torpedo homologues and hybridize to transcripts that are restricted to the somites of developing embryos. Northern blot analysis demonstrates that a 2.3-kb transcript hybridizes to the alpha subunit cDNA, a 2.4-kb transcript hybridizes to the gamma subunit cDNA, and that two transcripts, of 1.9 and 2.5 kb, hybridize to the delta subunit cDNA. RNase protection assays demonstrate that transcripts encoding alpha, gamma, and delta subunits are coordinately expressed at late gastrula and that the amount of each transcript increases in parallel with muscle-specific actin mRNA during the ensuing 12 h. After the onset of muscle activity the level of actin mRNA per somite remains relatively constant, whereas the level of alpha subunit and delta subunit transcripts decrease fourfold per somite and the level of gamma subunit transcript decreases greater than 50-fold per somite. The decrease in amount of AChR transcripts per somite, however, occurs when embryos are paralyzed with local anaesthetic during their development. These results demonstrate that AChR transcripts in Xenopus are initially expressed coordinately, but that gamma subunit transcript levels are regulated differently than alpha and delta at later stages. Moreover, these results demonstrate that AChR transcript levels in Xenopus myotomal muscle cells are not responsive to electrical activity and suggest that AChR transcript levels are influenced by other regulatory controls.
...
PMID:Regulation of acetylcholine receptor transcript expression during development in Xenopus laevis. 333 98

We have cloned and characterized mouse genomic DNA containing the gene for the 43-kDa acetylcholine receptor-associated protein. The gene extends over 12 kb and consists of 8 exons. RNase protection and sequence analysis have been used to define the intron/exon boundaries including 174 and 214 bp of 5' and 3' untranslated sequence in exons 1 and 8, respectively. Interestingly, the exon/intron organization is consistent with structural domains predicted from amino acid sequence conservation among 3 species of 43K. Finally, the 43K locus, designated Rapsn, has been mapped to the central region of mouse chromosome 2.
...
PMID:Characterization and mapping of the Rapsn gene encoding the 43-kDa acetylcholine receptor-associated protein. 769 61

A cDNA encoding the beta subunit of the Xenopus muscle nicotinic acetylcholine receptor (AChR) was cloned from an embryonic Xenopus cDNA library. The predicted mature polypeptide has 469 amino acids and four membrane spanning regions corresponding to the M1-M4 regions identified in other AChR subunit clones. The polypeptide bears greater homology to beta subunits of Torpedo and mouse than to alpha, gamma or delta subunits of Xenopus. The earliest beta subunit transcripts were detected by RNase protection assays at the neural plate stage of development (stage 14) and the level of transcripts, as a fraction of total RNA, continued to increase through the age of hatching (stages 34-36). Co-injection of Xenopus alpha, beta, gamma and delta cRNAs into Xenopus oocytes led to expression of functional AChRs. Micromolar concentrations of ACh activated depolarizing AChR currents which reversed at -5 mV and were blocked by alpha bungarotoxin. Injection of alpha, gamma and delta subunits alone did not yield detectable ACh responses. With the cloning of the Xenopus beta subunit, structure/function relations of AChRs can now be studied using receptors composed entirely of Xenopus subunits.
...
PMID:Structure and expression of the nicotinic acetylcholine receptor beta subunit of Xenopus laevis. 808 30

The transcriptional activity of the acetylcholine receptor alpha-subunit gene was measured in denervated chick skeletal muscle in response to calcium-active drugs, using a ribonuclease protection version of the conventional run-off assay. The L-channel agonist (-)Bay-K6844 and the calcium ionophore A23187 mimicked, and the intracellular chelator BAPTA and the calcium channel blockers D600 and nifedipine blocked, the effect of electrostimulation. These results suggest that influx of extracellular calcium is an integral component of the membrane depolarization-receptor gene inactivation cascade.
...
PMID:Calcium influx blocks the skeletal muscle acetylcholine receptor alpha-subunit gene in vivo. 830 94

1 2 Next >>