Electron microscopic observations of satellite cells with special reference to the development of mammalian skeletal muscles

  • Harunori Ishikawa


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  1. Adams, R. D., D. Denney-Brown, and C. M. Pearson: Diseases of muscle, p. 3–51. London-Toronto-Melbourne-Sydney-Wellington: Cassell 1953.Google Scholar
  2. Allbrook, D.: An electron microscopic study of regenerating skeletal muscle. J. Anat. (Lond.) 96, 137–152 (1962).Google Scholar
  3. Asai, T.: Beitrage zur Histologie und Histogenese der quergestreiften Muskulatur der Säugetiere. Arch. mikr. Anat. 86, 8–68 (1915).Google Scholar
  4. Bardeen, C. R.: The development of the musculature of the body wall in the pig, including its histogenesis and its relation to the myotomes and to the skeletal and nervous apparatus. Johns Hopk. Hosp. Rep. 9, 367–400 (1900).Google Scholar
  5. Boyd, J. D.: Histogenesis of striated muscle. In: Structure and function of muscle (ed. by G. H. Bourne), vol. 1, p. 72–82. New York and London: Academic Press 1960.Google Scholar
  6. Brightman, M. W., and S. L. Palay: The fine structure of ependyma in the brain of the rat. J. Cell Biol. 19, 415–439 (1963).Google Scholar
  7. Chapman, J. A.: Fibroblasts and collagen. Brit. med. Bull. 18, 233–237 (1962).Google Scholar
  8. Cuajunco, F.: Development of the human motor end plate. Carneg. Inst. Wash. Publ. 541, Contr. Embryol. 30, 127–152 (1942).Google Scholar
  9. Engel, W. K.: Cytological localization of glycogen in cultured skeletal muscle. J. Histochem. Cytochem. 9, 38–43 (1961).Google Scholar
  10. Farquhar, M. G., and G. E. Palade: Junctional complexes in various epithelia. J. Cell Biol. 17, 375–412 (1963).Google Scholar
  11. Ferris, W.: Electron microscope observations of the histogenesis of striated muscle. Anat. Rec. 133, 275 (1959).Google Scholar
  12. Gilëv, V. P.: Die Untersuchung einiger Elemente des Muskelgewebes in seiner Histogenesis und Regeneration. IV. Intern. Kongr. für Elektronenmikroskopie, II, S. 321–324. Berlin-Göttingen-Heidelberg: Springer 1960.Google Scholar
  13. Glücksmann, A.: Über die Entwicklung der quergestreiften Muskulatur und ihre funktionelle Beziehungen zum Skelet in der Onto- und Phylogenie der Wirbeltiere. Z. Anat. Entwickl.-Gesch. 103, 303–370 (1934).Google Scholar
  14. Häggqvist, G.: Gewebe und Systeme der Muskulatur. In: Handbuch der Mikroskopischen Anatomie des Menschen, hrsg. von W. v. Möllendorff, Bd. II/3. Berlin: Springer 1931.Google Scholar
  15. —: Gewebe und Systeme der Muskulatur. In: Handbuch der Mikroskopischen Anatomie des Menschen, hrsg. von W. Bargmann, Bd. II/4. Berlin-Göttingen-Heidelberg: Springer 1956.Google Scholar
  16. Hay, E. D.: Electron microscopic observations of muscle dedifferentiation in regenerating Amblystoma limbs. Develop. Biol. 1, 555–585 (1959).Google Scholar
  17. —: The fine structure of differentiating muscle in the salamander tail. Z. Zellforsch. 59, 6–34 (1963).Google Scholar
  18. Hojiro, O.: Electron microscope observations on the myoblast of the regenerating forelimb of the adult newt. J. Electronmicroscopy (Chiba) 12, 223–235 (1963).Google Scholar
  19. Ishikawa, H.: The fine structure of myo-tendon junction in some mammalian skeletal muscles. Arch. histol. jap. 25, 275–296 (1965).Google Scholar
  20. Karrer, H. E.: The striated musculature of blood vessels. II. Cell interconnections and cell surface. J. biophys. biochem. Cytol. 8, 135–150 (1960).Google Scholar
  21. Luft, J. H.: Improvement in epoxy embedding methods. J. biophys. biochem. Cytol. 9, 409–414 (1961).Google Scholar
  22. MacCallum, J. B.: On the histogenesis of the striated muscle fibre, and the growth of the human sartorius muscle. Bull. Johns Hopk. Hosp. 9, 208–215 (1898).Google Scholar
  23. Mauro, A.: Satellite cell of skeletal muscle fibers. J. biophys. biochem. Cytol. 9, 493–495 (1961).Google Scholar
  24. Meves, F.: Über Neubildung quergestreifter Muskelfasern nach Beobachtung an Hühnerembryo. Anat. Anz. 34, 161–165 (1909).Google Scholar
  25. Midzukami, M.: Electron microscopic studies of satellite cells in the cardiac muscle of brachyura. Okajimas Fol. anat. jap. 40, 173–185 (1964).Google Scholar
  26. Millonig, G.: Further observations on a phosphate buffer for osmium solutions in fixation. 5th Intern. Congr. for Electron Microscopy, vol. 2, P-8. New York and London: Academic Press 1962.Google Scholar
  27. Morpurgo, B.: Über die postembryonale Entwicklung der quergestreiften Muskeln von weißen Ratten. Anat. Anz. 15, 200–206 (1898).Google Scholar
  28. Murray, M. R.: Skeletal muscle tissue in culture. In: Structure and function of muscle, ed. by G. H. Bourne, vol. 1, p. 111–136. New York and London: Academic Press 1960.Google Scholar
  29. Pease, D. C.: The basement membrane: Substratum of histological order and complexity. In: 4th Intern. Congr. for Electron Microscopy, vol. 2, p. 139–155. Berlin-Göttingen-Heidelberg: Springer 1960.Google Scholar
  30. Rényi, G. S., de, and M. J. Hogue: Studies on skeletal muscle growth in tissue cultures. Arch. exp. Zellforsch. 16, 167–186 (1934).Google Scholar
  31. Sjöstrand, F. S., E. Andersson-Cedergren, and M. M. Dewey: The ultrastructure of the intercalated disc of frog, mouse and guinea-pig cardiac muscle. J. Ultrastruct. Res. 1, 271–286 (1958).Google Scholar
  32. Speidel, C. C.: Studies of living muscle. I. Growth, injury and repair of striated muscle, as revealed by prolonged observations of individual fibers in living frog tadpoles. Amer. J. Anat. 62, 179–235 (1938).Google Scholar
  33. Venable, J.: The cytology of hypertrophy in a skeletal muscle. Anat. Rec. 148, 347 (1964).Google Scholar
  34. Wilde jr., C. E.: The fusion of myoblasts, a morphogenetic mechanism in striated muscle differentiation. Anat. Rec. 132, 517–518 (1958).Google Scholar

Copyright information

© Springer-Verlag 1966

Authors and Affiliations

  • Harunori Ishikawa
    • 1
  1. 1.2nd Department of Anatomy, Faculty of MedicineKyushu UniversityJapan

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