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

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Query: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chick embryo myoblasts in culture will respond to extracts of adult anterior latissimus dorsi muscle with an increase in cell number and an increase in total protein and in myosin heavy chain in fused myotubes. Extracts of adult pectoralis major and of posterior latissimus muscles are only marginally active. The active adult muscle extracts are fractionated by DEAE-cellulose column chromatography and transferrin is identified as the active component based on the following findings: (1) the active fractions are shown to contain an 80K protein that comigrates with chicken transferrin on SDS-PAGE, (2) the active extract from the anterior latissimus dorsi completely replaced embryo extract in the culture medium and supported normal myogenesis, (3) the active extract requires iron for its ability to support myogenesis, (4) the peptide map of the 80K protein is identical to a peptide map of transferrin. Under conditions where the 80K protein is detected in adult anterior latissimus dorsi muscles it is shown that the protein is nevertheless not synthesized in the muscle. These results support the idea that tissues of selective muscles in the adult chicken accumulate transferrin. An accompanying paper shows that transferrin also accumulates in early developmental stages of fast muscle tissue but that accumulation ceases after hatching in these muscles in normal chickens but not in animals of congenic strains with inherited muscular dystrophy.
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PMID:There is selective accumulation of a growth factor in chicken skeletal muscle. I. Transferrin accumulation in adult anterior latissimus dorsi. 672 29

Densitometric scanning of SDS-polyacrylamide gels was used to measure myosin heavy chain concentration in left ventricular specimens obtained from cat hearts 3 to 12 months after healing of small experimental myocardial infarctions. The study was designed to test the hypothesis that myosin concentration varies as a function of anatomic proximity to the infarct scar. Myosin heavy chain concentration was elevated in non-scarred areas adjacent to a healed infarct and normal in areas remote from the scar. The scar itself had reduced concentrations, reflecting the loss of muscle mass in this area. The increased myosin heavy chain concentration in regions adjacent to the scar may be an attempt to regulate or compensate for the decrease in mechanical function of the scarred area.
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PMID:Regional variations in myosin heavy chain concentration after healing of experimental myocardial infarction in cats. 674 90

The mode of degradation of myofibrillar proteins by the action of highly purified rabbit muscle cathepsin D (EC 3.4.23.5) was studied using SDS-polyacrylamide gel electrophoresis. Cathepsin D optimally degraded myosin heavy chain, alpha-actinin, tropomyosin, troponin T and troponin I at around pH 3. It did not degrade actin or troponin C. Degradation of myosin heavy chain produced four major fragments of 155000, 130000, 110000 and 90000 daltons. Troponin T was hydrolyzed to 33000-, and 20000- and 11000-dalton fragments. Troponin I was degraded into fragments of 13000 and 11000 daltons. Degradation of alpha-actinin and tropomyosin was not as rapid as that of myosin and troponins T and I. Tropomyosin gave a fragment of 30000 daltons, but alpha-actinin showed no distinct band of this fragment on gels.
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PMID:Mode of degradation of myofibrillar proteins by rabbit muscle cathepsin D. 682 29

The distribution of myosin isozymes in embryonic and adult chicken gizzard muscle were examined by electrophoresis in a non-denaturing gel system (pyrophosphate acrylamide gel electrophoresis), and both light and heavy chains of embryonic and adult myosin isozymes were compared. In pyrophosphate acrylamide gel electrophoresis, there were three isozyme components in embryonic gizzard myosin, but only one isozyme in adult gizzard myosin. The mobility of the fastest migrating embryonic isozyme was similar to that of the adult isozyme. The three embryonic isozymes differ from each other in the light chain distribution. Two of them contain an embryo-specific myosin light chain, which is characterized by its molecular weight and isoelectric point, whereas the other embryonic myosin isozyme contained the same light chains as the adult myosin. The pattern of peptide fragments of embryonic heavy chain produced by digestion with alpha-chymotrypsin in the presence of SDS was not distinguishable from that of adult myosin heavy chain. Thus there are myosin isozymes specific to embryonic gizzard muscle which exhibit embryo-specific light chain compositions, but are similar to adult gizzard myosin in their heavy chain structure.
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PMID:Changes in myosin isozymes during development of chicken gizzard muscle. 687 71

Proteins released from stimulated platelets were compared to those of a well-defined preparation of alpha-granules and the soluble cytoplasm by crossed immunoelectrophoresis. Nearly all releasable proteins were detected in the alpha-granule, whereas the true proteins of the soluble cytoplasm were not released. The released glycoproteins interacted with lectins similarly to their alpha-granula-located counterparts. The alpha-granules were divided into soluble contents and membranes by ultrasonication followed by ultracentrifugation. The proteins of the soluble content corresponded to those released from the stimulated platelets. This observation was also supported by SDS-polyacrylamide gel electrophoresis. The results indicate that the bulk of the proteins released from stimulated platelets originate from the soluble content of the alpha-granules. Two major alpha-granule antigens as well as the myosin heavy chain were not released and recovered in the alpha-granule membrane. These results support the hypothetical exocytosis mechanism for the release of alpha-granule proteins from platelets.
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PMID:Evidence for release of soluble, but not of membrane-integrated, proteins from human platelet alpha-granules. 706 46

The two myosin isozymes (SM1 and SM2) of the anterior latissimus dorsi muscle of the chicken change in relative concentration during development. As SM1 decreases from 13 days of embryonic growth through 1 year of adult maturation, SM2 increases. In the adult muscle SM2 accounts for over 95% of the total myosin. The myosin heavy chains of the two isozymes are distinctly different and may be separated from each other by 5% SDS polyacrylamide gel electrophoresis. The faster migrating myosin heavy chain is identified as originating from SM1 and the slower migrating myosin heavy chain from SM2 myosin isozymes. The myosin heavy chains change in relative concentration during development exactly parallel with changes in SM1 and SM2 isozyme levels. Peptide map analysis also reveals that SM1 myosin heavy chains and SM2 myosin heavy chains are distinctly different. When RNA from the ALD muscle is added to reticulocyte lysate protein synthesizing systems the translation products are shown to include both SM1 and SM2 myosin heavy chains. These comigrate exactly on 5% SDS polyacrylamide gels with authentic counterparts from ALD muscle. Finally, when peptide maps of SM1 and SM2 myosin heavy chains synthesized in the reticulocyte lysate are compared they are again found to be distinctly different and each is identical to a peptide map of respective authentic SM1 and SM2 myosin heavy chains. It is concluded that the myosin heavy chains of SM1 and SM2 myosin isozymes of ALD muscle have different primary structures and that they are encoded by two distinctly different mRNAs.
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PMID:The two myosin isoenzymes of chicken anterior latissimus dorsi muscle contain different myosin heavy chains encoded by separate mRNAs. 715 68

Two spontaneously arising variant clones were selected from the N18 neuroblastoma cell line solely on the basis of their flattened morphology and tight adherence to the culture flask. Two other clones having the round loosely adherent morphology typical of the parent line were also selected, and flat variants were shown to arise in them upon prolonged cultivation. The flat variant clones have slower growth rates in culture, lower cloning efficiencies in suspension, and reduced acetylcholinesterase inducibility when compared with either the parent N18 line or the round cell clones. Cells of both morphologic types have high levels of plasminogen activator and are tumorigenic, although the variants have a slower growth rate in vivo, consistent with their slower growth rate in culture. SDS-polyacrylamide gel electrophoresis of total protein from the two cell types shows that the flat variants have increased amounts of a 200,000 molecular weight polypeptide that has tentatively been identified as the heavy chain of myosin. Round morphological revertants from one of the flat variant clones exhibited growth characteristics typical of the parent N18 line, but their content of myosin heavy chain, although reduced, was not so low as that in the round cell clones originally isolated. The possibility of a causal relationship between flat morphology, reduced suspension cloning efficiency, and increased content of myosin heavy chain is discussed.
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PMID:Clonal variation in cultured neuroblastoma cells. I. Isolation and characterization of variants. 719 8

Chymotrypsin cleaves Dictyostelium myosin in half, splitting the heavy chain (210,000 daltons) into two fragments of 105,000 daltons each. One of the two major fragments is soluble at low ionic strength and has a native molecular weight of 130,000. As judged by SDS polyacrylamide gel electrophoresis, this soluble fragment consists of the two intact myosin light chains of 18,000 and 16,000 daltons and a 105,000-dalton polypeptide derived from the myosin heavy chain. The soluble fragment retains actin-activated ATPase activity and the ability to bind to actin in an ATP-dissociable fashion. The maximal velocity of the actin-activated ATPase activity of the soluble fragment is 80% of that of uncleaved myosin, although its apparent Km for actin is 12-fold greater than that of myosin. In addition to the major soluble 105,000-dalton fragment discussed above, chymotryptic cleavage of the Dictyostelium myosin also generates fragments that are insoluble at low ionic strength. The major insoluble fragment is 105,000 daltons on an SDS polyacrylamide gel and forms thick filaments that are devoid of myosin heads. A less prevalent insoluble fragment has a molecular weight of 83,000 and is probably a subfragment of the insoluble 105,000-dalton fragment. The heavy chain of myosin is phosphorylated in vivo and the phosphorylation site has been localized to the insoluble fragments, which derive from the tail portion of the myosin molecule.
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PMID:Dictyostelium myosin: characterization of chymotryptic fragments and localization of the heavy-chain phosphorylation site. 722 95

Tetrodotoxin (TTX), at concentrations that do not interfere with normal myogenesis or with myosin synthesis, causes of cultured muscle fibres to accumulate myosin heavy chain peptides. This effect is now shown to be reversible. On removal of TTX, muscle fibres begin to reaccumulate myosin heavy chains and it appears that the myosin heavy chains display a 230% increase in stability when cells are shifted from TTX to a normal medium without TTX. Total protein stability or turnover is not affected by TTX. The ability of TTX to induce failure of accumulation of myosin heavy-chain in cultured muscle fibres does not extend to cultured chick fibroblasts. TTX also does not perturb normal uptake of [3H] leucine during a 1 h pulse and the leucine-specific activity within TTX-treated cells is essentially equivalent to that within normal cells. Finally, limited proteolysis of myosin heavy chain isolated from TTX-treated and normal muscle fibres and display of cleavage products on SDS-polyacrylamide gels does not reveal any significant difference between the two myosins. We conclude that failure of TTX muscle to accumulate myosin heavy chain is not related to impaired synthesis, to changes in myosin heavy-chain primary structure, or to overall changes in muscle fibre proteolytic activity. We speculate that the increase in degradation and resulting failure to accumulate myosin heavy chain in TTX cells is related to an inability of TTX-related muscle fibres to assemble newly synthesized fibrillar proteins into structures such as filaments or fibrils. Failure of assembly would lead to increased exposure to base-line levels of muscle proteolysis and to the observed lack of accumulation of myosin heavy chain.
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PMID:Regulation of myosin accumulation by muscle activity in cell culture. 728 98

Cathepsin D (EC 3.4.23.4) was purified from rabbit skeletal muscle using acetone-dried muscle powder as starting material. After the acetone-dried powder was extracted with 0.2 mM ATP, the extract was fractionated with acetone an subjected to DEAE-Sephadex A-50 and Sephadex G-100 column chromatography. Rechromatography on a Sephadex G-100 column resulted in a purified preparation. SDS-polyacrylamide gel electrophoresis of the purified enzyme showed one major band of 42,000 daltons and some bands of contaminants. Since gel filtration also indicated a value of 42,000 daltons for the enzyme, it was concluded that muscle cathepsin D has no subunit structure. The enzyme acted optimally towards myofibrils around pH3, resulting in the degradation of the myosin heavy chain and production of a 30,000-dalton component.
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PMID:Purification of cathepsin D from rabbit skeletal muscle and its action towards myofibrils. 731 36


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