User menu

Density of myosin filaments in the rat anococcygeus muscle, at rest and in contraction. II.

Bibliographic reference Gillis, Jean-Marie ; Cao, M L ; Godfraind-De Becker, A. Density of myosin filaments in the rat anococcygeus muscle, at rest and in contraction. II.. In: Journal of muscle research and cell motility, Vol. 9, no. 1, p. 18-29 (1988)
Permanent URL http://hdl.handle.net/2078.1/11787
  1. Badia, E., Nicolas, J. C., Crastes de Paulet, A., Cavadore, J. C. &Haiech, J. (1984) Myosin light chain phosphorylation during uterine smooth muscle contraction. Effect of hormonal treatments. InCalcium Regulations in smooth muscles, biochemical and physiological aspects (edited byMironneau, J.) pp. 333–45. Paris: INSERM.
  2. Barer, R. &Joseph, S. (1954) Refractometry of living cells. Part I. Basic principles.Quart. J. microsc. Sci. 95, 399–423.
  3. Bragg, W. L. &Pippard, A. B. (1953) The form birefringence of macromolecules.Acta crystallog. 6, 865–7.
  4. Cassim, J. Y. &Taylor, E. W. (1965) Intrinsic birefringence of poly-γ-benzyl-l-glutamate, a helical polypeptide, and the theory of birefringence.Biophys. J. 5, 531–52.
  5. Cohn, E. J. &Edsall, J. T. (1953)Proteins, Amino Acids and Peptides p. 377. New York: Reinhold.
  6. Davis, J. S. &Gutfreund, H. (1976) The scope of moderate pressure changes for kinetic and equilibrium studies of biochemical systems.FEBS Lett. 72, 199–207.
  7. DeLanerolle, P. &Stull, J. T. (1980) Myosin phosphorylation during contraction and relaxation of tracheal smooth muscle.J. biol. Chem. 255, 9993–10000.
  8. Dickinson-Gibbons, J. (1976)Non-parametric Methods for Quantitative Analysis. New York: Holt, Rinehart & Winston.
  9. Gabella, G. (1981) Structure of muscles and nerves in the gastrointestinal tract. InPhysiology of the Gastrointestinal Tract (edited byJohnson, L. R.) pp. 197–240. New York: Raven Press.
  10. Godfraind-De Becker, A. &Gillis, J. M. (1982) Living and extracted strips of taenia coli: optical retardation and birefringence at rest and in contraction.J. Musc. Res. Cell Motility 3, 475.
  11. Godfraind-De Becker, A., Cao, M. L. &Gillis, J. M. (1986) Birefringence of the rat anococcygeus: correlation with the density of myosin filaments. InRegulation and Contraction of Smooth Muscle (edited bySiegman, M. J., Somlyo, A. P. &Stephens, N. L.) Progress in clinical and biological research,245, 459–60 New York: Alan R. Liss.
  12. Godfraind-De Becker, A. &Gillis, J. M. (1987) Polarized light microscopy of the smooth muscle anococcygeus of the rat. InMolecular Mechanism of Muscle Contraction (edited bySugi, H. &Pollack, G. H.) New York: Plenum (in press).
  13. Godfraind-De Becker, A. &Gillis, J. M. (1988) Analysis of the birefringence of the smooth muscle anococcygeus, at rest and in contraction. I.J. Musc. Res. Cell Motility.
  14. Goodford P. J., Wolowyk M. W., Localization of cation interactions in the smooth muscle of the guinea-pig taenia coli, 10.1113/jphysiol.1972.sp009911
  15. Hamoir, G. (1969) The muscle proteins of the vascular wall.Angiologica 6, 192–226.
  16. Hasselbach, W. &Schneider, G. (1951) Derl-Myosin und Aktingehalt des Kaninchenmuskels.Biochem. Z. 321, 461–71.
  17. Huxley A. F., Niedergerke R., Measurement of the striations of isolated muscle fibres with the interference microscope, 10.1113/jphysiol.1958.sp006110
  18. Ikebe, M., Hinkins, S. &Hartshorne, D. J. (1983) Correlation of enzymic properties and conformation of smooth muscle myosin.Biochemistry 22, 4580–7.
  19. Irving, M., Peckham, M. &Ferenczi, M. A. (1987) Birefringence as a probe of crossbridge orientation in demembranated muscle fibres. InMolecular Mechanism of Muscle Contraction (edited bySugi, H. &Pollack, G. H.) New York: Plenum (in press).
  20. Jones A. W., Somlyo A. P., Somlyo Avril V., Potassium accumulation in smooth muscle and associated ultrastructural changes, 10.1113/jphysiol.1973.sp010268
  21. Kendrick-Jones, J., Cande, W. Z., Tooth, P. J., Smith, R. C. &Scholey, J. M. (1983) Studies on the effect of phosphorylation of the 20 000 Mr light chain of vertebrate smooth muscle myosin.J. molec. Biol. 165, 139–62.
  22. Murakami, U. &Uchida, K. (1985) Content of myofibrillar proteins in cardiac, skeletal and smooth muscles.J. Biochem. 98, 187–97.
  23. Small, J. V. &Squire, J. M. (1972) Structural basis of contraction in vertebrate smooth muscle.J. molec. Biol. 67, 117–49.
  24. Small, J. V. &Sobieszek, A. (1977) Studies on the function and composition of the 10 nm filaments of vertebrate smooth muscle.J. Cell. Sci. 23, 243–68.
  25. Small, J. V., Furst, D. O. &Demey, J. (1986) Localization of filamin in smooth muscle.J. Cell. Biol. 102, 210–20.
  26. Somlyo, A. P., Devine, C. E., Somlyo, A. V. &Rice, R. V. (1973) Filament organization in vertebrate smooth muscle.Phil. Trans. R. Soc. Lond. B. 265, 223–9.
  27. Somlyo, A. V., Butler, T. M., Bond, M. &Somlyo, A. P. (1981) Myosin filaments have non-phosphorylated light chain in relaxed smooth muscle.Nature 294, 567–9.
  28. Trybus, K. M. &Lowey, S. (1984) Conformational states of smooth muscle myosin.J. biol. Chem. 259, 8564–71.
  29. Trybus, K. M. &Lowey, S. (1985) Mechanism of smooth muscle myosin phosphorylation.J. biol. Chem. 269, 15988–95.
  30. Trybus, K. M. &Lowey, S. (1986) Subunit exchange between smooth muscle myosin. InRegulation and Contraction of Smooth Muscle (edited bySiegman, M. J., Somlyo, A. P. &Stephens, N. L.) Progress in clinical and biological research,245, 81–90. New York: Alan R. Liss.
  31. Weber, H. H. (1934) Der Feinbau und die mechanischen Eigenschaften des Myosinfadens.Pflüg. Arch. ges. Physiol. 235, 205–33.
  32. Weiner, O. (1912) Die Theorie des Mischkörpers für das Feld der stationären Strömung.Abh. sächs. ges. Akad. Wiss. 32, 509–604.