Miller JB et al. (1985), Slow and fast myosin heavy chain content define...

XB-ART-47396

J Cell Biol 1985 Nov 01;1015 Pt 1:1643-50.

Show Gene links Show Anatomy links

Slow and fast myosin heavy chain content defines three types of myotubes in early muscle cell cultures.

Miller JB , Crow MT , Stockdale FE .

???displayArticle.abstract???
We prepared monoclonal antibodies specific for fast or slow classes of myosin heavy chain isoforms in the chicken and used them to probe myosin expression in cultures of myotubes derived from embryonic chicken myoblasts. Myosin heavy chain expression was assayed by gel electrophoresis and immunoblotting of extracted myosin and by immunostaining of cultures of myotubes. Myotubes that formed from embryonic day 5-6 pectoral myoblasts synthesized both a fast and a slow class of myosin heavy chain, which were electrophoretically and immunologically distinct, but only the fast class of myosin heavy chain was synthesized by myotubes that formed in cultures of embryonic day 8 or older myoblasts. Furthermore, three types of myotubes formed in cultures of embryonic day 5-6 myoblasts: one that contained only a fast myosin heavy chain, a second that contained only a slow myosin heavy chain, and a third that contained both a fast and a slow heavy chain. Myotubes that formed in cultures of embryonic day 8 or older myoblasts, however, were of a single type that synthesized only a fast class of myosin heavy chain. Regardless of whether myoblasts from embryonic day 6 pectoral muscle were cultured alone or mixed with an equal number of myoblasts from embryonic day 12 muscle, the number of myotubes that formed and contained a slow class of myosin was the same. These results demonstrate that the slow class of myosin heavy chain can be synthesized by myotubes formed in cell culture, and that three types of myotubes form in culture from pectoral muscle myoblasts that are isolated early in development, but only one type of myotube forms from older myoblasts; and they suggest that muscle fiber formation probably depends upon different populations of myoblasts that co-exist and remain distinct during myogenesis.

???displayArticle.pubmedLink??? 3902852
???displayArticle.pmcLink??? PMC2113961

???displayArticle.grants??? [+]

???displayArticle.antibodies??? Fast Skeletal Muscle Ab1 Slow Skeletal Muscle Ab1

References [+] :

Bader, Immunochemical analysis of myosin heavy chain during avian myogenesis in vivo and in vitro. 1982, Pubmed

Bader, Immunochemical analysis of myosin heavy chain during avian myogenesis in vivo and in vitro. 1982, Pubmed
Bandman, Developmental appearance of myosin heavy and light chain isoforms in vivo and in vitro in chicken skeletal muscle. 1982, Pubmed
Benfield, Myosin isozymes in avian skeletal muscles. II. Fractionation of myosin isozymes from adult and embryonic chicken pectoralis muscle by immuno-affinity chromatography. 1983, Pubmed
Blau, Cytoplasmic activation of human nuclear genes in stable heterocaryons. 1983, Pubmed
Bonner, Clonal analysis of vertebrate myogenesis. I. Early developmental events in the chick limb. 1974, Pubmed
Bradford, A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. 1976, Pubmed
Bruck, One-step purification of mouse monoclonal antibodies from ascitic fluid by DEAE Affi-Gel blue chromatography. 1982, Pubmed
Burnette, "Western blotting": electrophoretic transfer of proteins from sodium dodecyl sulfate--polyacrylamide gels to unmodified nitrocellulose and radiographic detection with antibody and radioiodinated protein A. 1981, Pubmed
Crow, Myosin light-chain expression during avian muscle development. 1983, Pubmed
Dhoot, Distribution of polymorphic forms of troponin components and tropomyosin in skeletal muscle. 1979, Pubmed
Gauthier, Polymorphism of myosin among skeletal muscle fiber types. 1977, Pubmed
Gauthier, Distribution and properties of myosin isozymes in developing avian and mammalian skeletal muscle fibers. 1982, Pubmed
Hsu, Use of avidin-biotin-peroxidase complex (ABC) in immunoperoxidase techniques: a comparison between ABC and unlabeled antibody (PAP) procedures. 1981, Pubmed
Jahn, A quantitative dot-immunobinding assay for proteins using nitrocellulose membrane filters. 1984, Pubmed
Johnson, Fading of immunofluorescence during microscopy: a study of the phenomenon and its remedy. 1982, Pubmed
Kelly, The histogenesis of rat intercostal muscle. 1969, Pubmed
Laemmli, Cleavage of structural proteins during the assembly of the head of bacteriophage T4. 1970, Pubmed
Lawrence, Extinction of muscle-specific properties in somatic cell heterokaryons. 1984, Pubmed
Lompré, Expression of the cardiac ventricular alpha- and beta-myosin heavy chain genes is developmentally and hormonally regulated. 1984, Pubmed
Mahdavi, Cardiac alpha- and beta-myosin heavy chain genes are organized in tandem. 1984, Pubmed
Matsuda, Types of troponin components during development of chicken skeletal muscle. 1981, Pubmed
McLennan, Neural dependence and independence of myotube production in chicken hindlimb muscles. 1983, Pubmed
McLennan, Differentiation of muscle fiber types in the chicken hindlimb. 1983, Pubmed
Montarras, Changes in tropomyosin during development of chick embryonic skeletal muscles in vivo and during differentiation of chick muscle cells in vitro. 1982, Pubmed
Obinata, Immunochemical analysis of C-protein isoform transitions during the development of chicken skeletal muscle. 1984, Pubmed
Obinata, Types of myosin light chains present during the development of fast skeletal muscle in chick embryo. 1980, Pubmed
O'Neill, A kinetic analysis of myogenesis in vitro. 1972, Pubmed
Phillips, Differentiation of fiber types in wing muscles during embryonic development: effect of neural tube removal. 1984, Pubmed
Roy, Changes in tropomyosin subunits and myosin light chains during development of chicken and rabbit striated muscles. 1979, Pubmed
Rubinstein, Fast and slow muscles in tissue culture synthesise only fast myosin. 1979, Pubmed
Rushbrook, Comparison of adult, embryonic, and dystrophic myosin heavy chains from chicken muscle by sodium dodecyl sulfate/polyacrylamide gel electrophoresis and peptide mapping. 1979, Pubmed
Rutz, Clonal analysis of vertebrate myogenesis. VII. Heritability of muscle colony type through sequential subclonal passages in vitro. 1982, Pubmed
Sréter, Structural and functional changes of myosin during development: comparison with adult fast, slow and cardiac myosin. 1975, Pubmed
Stockdale, Myosin light chains and the developmental origin of fast muscle. 1981, Pubmed
Sweeney, Immunofluorescence analysis of the primordial myosin detectable in embryonic striated muscle. 1984, Pubmed
Umeda, Molecular cloning of two fast myosin heavy chain cDNAs from chicken embryo skeletal muscle. 1981, Pubmed
Wallimann, Localization of creatine kinase isoenzymes in myofibrils. I. Chicken skeletal muscle. 1977, Pubmed
Whalen, Myosin subunit types in skeletal and cardiac tissues and their developmental distribution. 1982, Pubmed
Whalen, Three myosin heavy-chain isozymes appear sequentially in rat muscle development. 1981, Pubmed
White, Clonal analysis of vertebrate myogenesis. IV. Medium-dependent classification of colony-forming cells. 1975, Pubmed
White, Muscle development in vitro. A new conditioned medium effect on colony differentiation. 1971, Pubmed
Winkelmann, Monoclonal antibodies localize changes on myosin heavy chain isozymes during avian myogenesis. 1983, Pubmed
Wright, Induction of muscle genes in neural cells. 1984, Pubmed
YAFFE, THE FORMATION OF HYBRID MULTINUCLEATED MUSCLE FIBERS FROM MYOBLASTS OF DIFFERENT GENETIC ORIGIN. 1965, Pubmed