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)

A cDNA clone, labeled Cl-13, isolated from an adult rat brain cDNA library, has been characterized and found by Northern blot and S1 nuclease mapping experiments to be solely expressed in neuronal tissue, principally, but not exclusively, in the brain. The associated mRNA is first detected in embryonic life, reaches maximum levels of expression at birth, and remains expressed in the adult. Northern blot analysis shows the transcript is not localized to one particular area of the brain, but is present in numerous regions. Low message levels of this transcript are also found in the peripheral nervous system, demonstrating that the expression of the associated gene is not restricted to the central nervous system. In addition, results indicate expression is limited to neuronal cells, and is not detected in glia. The identification of the cDNA clone Cl-13, which possesses limited nucleotide homology to tropomyosin, is exciting, particularly considering the neural-specific expression that it manifests and the unique cytoskeletal and motile properties exhibited by neurons.
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PMID:Developmentally regulated cDNA expressed exclusively in neural tissue. 164 80

Skeletal muscle beta-tropomyosin, smooth muscle alpha-tropomyosin, and a low molecular weight fibroblast tropomyosin are generated by alternatively splicing RNA transcripts of the chicken tropomyosin 1 (TM 1) gene (Forry-Schaudies, S., Maihle, N. J., and Hughes, S. H. (1990) J. Mol. Biol. 211; 321-330). Two novel tropomyosin cDNAs that derive from mRNAs of the TM 1 gene have been isolated from a chicken embryo brain cDNA library. Brain cDNA BRT-1 is 2.2 kilobases in length and encodes 283 amino acids. It is identical to skeletal muscle beta-tropomyosin from amino acids 1 to 258. The sequence 3' of this point is unique to BRT-1; a comparison to genomic sequence indicates that a new carboxyl-terminal exon is used to generate this sequence. 1.4-kilobase brain cDNA BRT-2 contains sequences found in both fibroblast cDNA FT-beta (5'-end) and skeletal muscle cDNA SKT-beta (3'-end). RNase and S1 nuclease assays using RNA samples from leg muscle, gizzard, fibroblasts, and brain indicate that the TM 1 gene expresses four additional tropomyosin RNAs by alternately splicing previously characterized exons. These results demonstrate that the chicken TM 1 gene encodes nine tropomyosin RNAs through the use of two promoters, two internal exons that are mutually exclusive, and three 3'-exons. Implications for the regulation of alternative splicing are discussed.
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PMID:The chicken tropomyosin 1 gene generates nine mRNAs by alternative splicing. 185 15

Several clones containing alpha tropomyosin sequences were isolated from cDNA libraries prepared from quail skeletal or smooth muscle RNA. All of these clones contain identical sequences coding for amino acids 81-257 of alpha skeletal muscle tropomyosin where they overlap, strongly indicating they are derived from the same gene. However, there are differences among these clones in sequences coding for the final 27 amino acids, as well as 3' untranslated sequences. In addition, S1 nuclease and Northern analyses indicate that coding sequences at the 5' end of the tropomyosin mRNA are also differentially expressed in smooth and skeletal muscle. These data point to the likelihood that differential splicing at both the 5' and 3' ends of a single tropomyosin gene results in the appearance of multiple tissue-specific transcripts.
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PMID:Analysis of tropomyosin cDNAs isolated from skeletal and smooth muscle mRNA. 378 49

The gene encoding muscle tropomyosin I in Drosophila is alternatively spliced in embryonic and thoracic muscle to generate two sizes classes of RNAs. By Northern blot analysis, the embryonic RNA class shows a broad RNA band of hybridization of 1.3 kb and a more sharply defined, less abundant RNA band at 1.6 kb. The thoracic class of RNAs, on the other hand, consists of a broad hybridization band at 1.7 kb and a more sharply defined band at 1.9 kb. Each size class of RNA encodes a different tropomyosin isoform. The two classes of alternatively spliced RNAs utilize the same 3' terminal exon of the gene. The DNA sequence of this exon reveals a cluster of several polyadenylation signals (AAUAAA) or polyadenylation-like signals. We show here by S1 nuclease protection analysis that at least five and possibly seven of these polyadenylation or polyadenylation-like sequences are associated with in vivo embryonic and thoracic mRNA cleavage processing sites. Six of these S1 sites are clustered within 119 bp and a seventh is located 255 bp downstream. At least one of the polyadenylation-like signal sequences appears to be an unusual AACAAA sequence. In addition we also show that these mRNAs function in vitro to synthesize muscle tropomyosins.
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PMID:Multiple polyadenylation sites in a Drosophila tropomyosin gene are used to generate functional mRNAs. 400 Sep 44

To investigate the functional consequences of a tropomyosin (TM) mutation associated with familial hypertrophic cardiomyopathy (FHC), we generated transgenic mice that express mutant alpha-TM in the adult heart. The missense mutation, which results in the substitution of asparagine for aspartic acid at amino acid position 175, occurs in a troponin T binding region of TM. S1 nuclease mapping and Western blot analyses demonstrate that increased expression of the alpha-TM 175 transgene in different lines causes a concomitant decrease in levels of endogenous alpha-TM mRNA and protein expression. In vivo physiological analyses show a severe impairment of both contractility and relaxation in hearts of the FHC mice, with a significant change in left ventricular fractional shortening. Myofilaments that contain alpha-TM 175 demonstrate an increased activation of the thin filament through enhanced Ca2+ sensitivity of steady-state force. Histological analyses show patchy areas of mild ventricular myocyte disorganization and hypertrophy, with occasional thrombi formation in the left atria. Thus, the FHC alpha-TM transgenic mouse can serve as a model system for the examination of pathological and physiological alterations imparted through aberrant TM isoforms.
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PMID:Mouse model of a familial hypertrophic cardiomyopathy mutation in alpha-tropomyosin manifests cardiac dysfunction. 1040 Sep 10