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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)
We have investigated the developmental regulation of the avian fast skeletal muscle
troponin T
(TnTf) gene of the Japanese quail. Sequence analysis of
troponin T
mRNA, cDNA clones, and a genomic DNA segment demonstrate that the avian, fast skeletal TnTf protein isoforms are produced from a single gene. This TnTf gene is expressed in skeletal muscle, but not in adult cardiac muscles or in non-muscle tissues. In addition to known TnT isoforms, three new isoforms of TnT are described. These isoforms arise by regulated alternative RNA splicing of exons in the 5' and 3' regions of TnTf transcripts. Alternative splicing of the 5' TnTf exons involves splicing of multiple exons in different combinations (i.e. not mutually exclusive), whereas 3' alternative splicing involves mutually exclusive splice choices between two exons (alpha or beta exons).
S1 nuclease
protection and primer extension analyses show that alternative splicing of both 5' and 3' exons is precisely regulated and coordinated in physiologically different striated muscles, which express distinct, restricted combinations of 5' and 3' alternatively spliced exons in mRNA transcripts. In contrast, different embryonic muscles and clonal embryonic myoblast cultures coexpress the 3' alternative splice choices. This indicates that alternative splicing of TnTf mRNAs is controlled in different adult muscles by specific trans factors, and not by the restricted expression of different spliced forms in different embryonic myoblast lineages. Comparison of TnTf isoform expression in quail and chicken flight muscle (Wilkinson, J. M., Moir, A. J., and Waterfield, M. D. (1984) Eur. J. Biochem. 143, 47-56) to TnTf isoforms of the rat (Breitbart, R. E., and Nadal-Ginard, B. (1986) J. Mol. Biol. 188, 313-324), and rabbit (Pearlstone, J. R., Carpenter, M. R., and Smillie, M. B. (1976) Proc. Natl. Acad. Sci. U. S. A. 73, 1902-1906) indicates that the avian gene contains an additional exon(s) not present in mammalian genes. The alternative exon sequences TnTf mRNAs expressed in anatomically distinct quail muscles can be correlated with sequences in TnTf protein isoforms in these chicken muscles. Thus, the regulated splicing of alternative exons in TnT transcripts, and not selective translation of stochastically spliced TnT mRNAs, regulates TnTf isoform expression in specific muscles.
...
PMID:Developmental and muscle-specific regulation of avian fast skeletal troponin T isoform expression by mRNA splicing. 274 56
We have previously reported that
troponin T
(
TnT
), a regulatory protein in muscle contraction, undergoes a switch from the larger, acidic embryonic form to the smaller, basic adult form during rat heart development (Jin, J.-P., and Lin, J.J.-C. (1988) J. Biol. Chem. 263, 7309-7315). To investigate the significance and the molecular mechanism of this isoform switching, cDNA clones encoding rat cardiac
TnT
were obtained by screening a cDNA library constructed from young rat cardiac poly(A)+ RNAs using the expression vector lambda gt11. Clone RCT10 proved to be a full length clone containing 50 base pairs (bp) of 5'-untranslated sequence, 870 bp of coding sequence, and 196 bp plus poly(A) tail at the 3'-untranslated region. In the other cDNA clone (RCT11), the entire 3'-untranslated sequence and most of the coding sequence were identical with that of RCT10, but an additional 30-bp insert was present in the coding region from residues 18 to 27. This insertion sequence appeared to code for a fragment (EDWSEEEEDE) highly enriched in acidic amino acid residues. Thus, RCT11 might represent a clone encoding the embryonic isoform of rat cardiac
TnT
.
S1 nuclease
RNA mapping analysis using end-labeled RCT11 cDNA probes confirmed that this region of the sequence is different in embryonic and adult isoform mRNAs. These results suggest that both embryonic and adult isoforms of rat cardiac
TnT
are generated from the same primary transcript by developmentally regulated alternative splicing. The amino acid sequence deduced from RCT10 cDNA exhibits 87%, 85%, and 72% homology with bovine, rabbit, and chicken cardiac TnTs, respectively, but less homology (57-59%) with the known skeletal TnTs from human, rat, rabbit, and chicken. Moreover, both the 5'- and the 3'-untranslated sequences of rat cardiac
TnT
mRNA are completely different from those reported for rat skeletal
TnT
mRNA, suggesting that rat cardiac
TnT
is coded from a gene distinct from the rat skeletal
TnT
gene.
...
PMID:Isolation and characterization of cDNA clones encoding embryonic and adult isoforms of rat cardiac troponin T. 276 70
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.
...
PMID:Mouse model of a familial hypertrophic cardiomyopathy mutation in alpha-tropomyosin manifests cardiac dysfunction. 1040 Sep 10
The
troponin T
(
TnT
) transcripts in chicken slow skeletal muscle were characterized by
S1 nuclease
mapping and nucleotide sequencing of cDNA produced by RT-PCR and 5'-RACE. We found two kinds of transcripts in the 5'-region, one having the codon for alanine (position 135-137), C (258), and A (262) and the other lacking the codon and having T (258) and G (262) instead of C and A. In the 3'-region, we found four single base substitutions at 703 (T or C), 774 or T), 797 or T), and 827 (G or A). Four of the six substitutions lead to amino acid changes in chicken sTnT isoforms. We determined the genomic structure of the 3'-region of the chicken sTnT gene. The region includes 7 exons corresponding to position 249-891 of the chicken sTnT cDNA and no alternative exon, showing that the 3'-heterogeneity in sTnT transcripts was due to allelic variation. J. Exp. Zool. 286:149-156, 2000.
...
PMID:Heterogeneity of chicken slow skeletal muscle troponin T mRNA. 1061 57
