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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)
The expression of mRNAs for two cardiac myosins has been examined in the ventricles of hypo- and hyperthyroid rabbits by means of cloned cDNA sequences corresponding to the mRNAs of the alpha- and beta-
myosin
heavy chains (HCs). The temporal change in the relative levels of the alpha- and beta-HC mRNAs after 3,5,3'-triiodothyronine (T3) treatment of hypothyroid rabbits was determined by
nuclease S1
mapping. In the hypothyroid state, only HC beta-mRNA was expressed in the ventricles. The HC alpha-mRNA was first detectable 4 h after administration of T3 (200 micrograms/kg) to hypothyroid animals. By 12 h, HC alpha-mRNA represented 20% of total
myosin
mRNA, increasing to 50% by 24 h and to about 90% by 72 h. The relationship between the relative mRNA levels and relative synthesis rates of the
myosin
HCs was evaluated in 5-6-week-old normal and thyrotoxic rabbits. Myosin synthesis rates were determined by labeling of protein in vivo with [3H]leucine. The V1 (HC alpha) and V3 (HC beta) isomyosins were separated by affinity chromatography with monoclonal antibodies, and the HCs were isolated electrophoretically. In a normal euthyroid group of animals and in animals 12 and 24 h after administration of 200 micrograms of 3,5,3',5'-tetraiodothyronine/kg, the relative mRNA levels and relative synthesis rates of the alpha- and beta-HCs were not significantly different. Our results show that, first, thyroid hormone causes a rapid accumulation of HC alpha-mRNA and loss of HC beta-mRNA and, second, in normal and thyrotoxic rabbits, the relative synthesis rates of HC alpha and HC beta reflect the relative abundance of the alpha- and beta-HC mRNAs.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Regulation of myosin synthesis by thyroid hormone: relative change in the alpha- and beta-myosin heavy chain mRNA levels in rabbit heart. 632 4
We have constructed and isolated a cardiac myosin heavy chain (HC) cDNA clone, pMHC alpha 81, with mRNA from ventricular heart muscle of hyperthyroid rabbits. The clone encodes approximately 480 amino acids of the COOH terminus of light meromyosin and all of the 3' nontranslated region of the corresponding mRNA. Nuclease S1 analyses indicated that the clone is transcribed in hyperthyroid, but not in hypothyroid ventricles and, therefore, corresponds to ventricular alpha-HC mRNA. With probes from the more divergent 3' non-translated region of pMHC alpha 81 and also from selected portions of two previously characterized rabbit cDNA clones ( pMHC alpha 252 and pMHC beta 174), we analyzed the
myosin
HC mRNAs of atrial, fast skeletal, and slow skeletal muscles by
nuclease S1
mapping. In atrial muscle, only one major transcript was detected. The sequence of this transcript was indistinguishable from ventricular alpha-HC mRNA in the 3' nontranslated region and in two coding segments. In contrast, the sequence divergence between the ventricular alpha-HC mRNA and the mRNAs of ventricular beta, fast skeletal, and slow skeletal
myosin
HCs was clearly detected. There appeared to be, however, considerable homology between coding sequences of ventricular beta and slow skeletal
myosin
HC mRNAs. The results strongly suggest that rabbit atrial and ventricular alpha-HCs are encoded by the same gene.
...
PMID:Expression of rabbit ventricular alpha-myosin heavy chain messenger RNA sequences in atrial muscle. 632 91
The structural properties of cardiac isomyosins from several species were compared using native gel electrophoresis, analysis of proteolytic digests, analysis of monoclonal antibody reactivity to specific proteolytic fragments on electroblots and
S1 nuclease
mapping with cDNA probes. The structure of specific regions of the
myosin
molecule was analyzed by reacting monoclonal antibodies with chymotryptic peptides of
myosin
separated by two-dimensional electrophoresis. The pattern of fragments reactive with antibody CCM-52 (epitope in LMM) was identical in all types of V3 isomyosin examined, and different in each type of V1 isomyosin. Peptides reactive with RCM-79 (epitope in HMM) were different from those reactive with CCM-52 and were also significantly different in each type of
myosin
examined. Thus, HC-alpha is structurally similar in the LMM portion of the molecule in all animals examined, while in the HMM region there are significant structural differences. HC-alpha differs from HC-beta, with structural differences in both LMM and HMM. We have also shown that atrial
myosin
HC and ventricular HC-alpha in the rabbit are indistinguishable both by RIA and peptide mapping analysis. The same conclusion was derived after analysis of the
myosin
HC mRNA expressed in rabbit atria and ventricles. Using cDNA probes specific for the alpha and beta
myosin
HC mRNA, we could not distinguish between the atrial
myosin
mRNA and ventricular HC alpha (V1 isomyosin) mRNA by
S1 nuclease
mapping experiments. Classification of different cardiac myosins is largely based on their mobility on native gel electrophoresis, immunological cross-reactivity, and ATPase activities.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Classification and characterization of cardiac isomyosins. 653
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