Czasopismo
2001
|
Vol.49, iss.2/3
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191-212
Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Warianty tytułu
Języki publikacji
Abstrakty
Mechanical properties of the vertebrate skeletal muscles are satisfactorily described on the basis of a new model of the myosin molecule packing into the thick filament.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
191-212
Opis fizyczny
Bibliogr. 51 poz., il., rys., wykr.
Twórcy
autor
- Institute of Biocybernetics and Biomedical Engineering Polish Academy of Sciences K. Trojdena 4, 02-109 Warsaw, Poland , Ludmila.Skubiszak@ibib.waw.pl
autor
- Institute of Biocybernetics and Biomedical Engineering Polish Academy of Sciences K. Trojdena 4, 02-109 Warsaw, Poland
Bibliografia
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- 6. L. SKUBISZAK, Structure and functional significance of the thick filament, Biophysics, 41, 39-56, 1996.
- 7. I. RAYMENT, w. R. RYPNIEWSKI, K. SCHMIDT-BASE, R. SMITH, D. R. TOMCHICK, M. M. BENNING, D. A. WINKELMANN, G. WESENBERG and H. M. HOLDEN, Three-dimensional structure of myosin subfragment-1: a molecular motor [see comments], Science, 261, 50-8, 1993.
- 8. M. STEWART and P. EDWARDS, Length of myosin rod and its proteolytic fragments determined by electron microscopy, 168, 75-78, 1984.
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- 12. I. RAYMENT and H. M. HOLDEN, The three-dimensional structure of a molecular motor, TIBS, 19, 129-134, 1994.
- 13. P. J. KNIGHT, N. S. FORTUNE and M. A. GEEVES, Effects of pressure on equatorial x-ray fiber diffraction from skeletal muscle fibers, J. Biophys., 65, 814-22, 1993.
- 14. M. KAWAI, J. S. WRAY and Y. ZHAO, The effect of lattice spacing change on cross-bridge kinetics in chemically skinned rabbit psoas muscle fibers. I. Proportionality between the lattice spacing and the fiber width, J. Biophys., 64, 187-96, 1993.
- 15. L. SKUBISZAK, Arrangement of myosin cross-bridges on the surface of vertebrate skeletal muscle thick filament, Biophysics, 41, 1167-1174, 1996.
- 16. L. SKUBISZAK, Mechanism of muscle contraction, Technology and Health Care, 1, 133-142, 1993.
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- 29. A. F. HUXLEY and R. M. SIMMONS, A quick phase in the series-elastic component of striated muscle, demonstrated in isolated fibres from the frog, 208, 52-53, 1970.
- 30. L. E. FORD, A. F. HUXLEY and R. M. SIMMONS, Tension transients during the rise of tetanic tension in frog muscle fibres, J. Physiol., 372, 595-609, 1986.
- 31. A. V. HILL, The heat of shortening and the dynamic constants of muscle, Proc. R. Soc. Lond., Ser. B 126, 136-195, 1938.
- 32. A. V. HILL, The abrupt transition from rest to activity in muscle, Proceedings of the Royal Society, B 136, 136-195, 1949.
- 33. A. V. HILL, The development of the active state of muscle during the latent period, Proceedings of the Royal Society, B 137, 320-329, 1950.
- 34. L. E. FORD, A. F. HUXLEY and R. M. SIMMONS, The relation between stiffness and filament overlap in stimulated frog muscle fibres, J. Physiol., 311, 219-49, 1981.
- 35. H. E. HUXLEY, A. STEWART, H. SOSA and T. IRVING, X-ray diffraction measurements of the extensibility of actin and myosin filaments in contracting muscle, J. Biophys., 67, 2411-21, 1994.
- 36. K. WAKABAYASHI, Y. SUGIMOTO, H. TANAKA, Y. UENO, Y. TAKEZAWA andY. AMEMIYA, X-ray diffraction evidence for the extensibility of actin and myosin filaments during muscle contraction (published erratum appears in J. Biophys. 1995 Mar;68(3):1196-7), J. Biophys., 67, 2422-35, 1994.
- 37. M. A. BAGNI, G. CECCHI, F. COLOMO and P. GARZELLA, Absence of mechanical evidence for attached weakly binding cross-bridges in frog relaxed muscle fibres, J. Physiol., 482, 391-400, 1995.
- 38. G. MUTUNGI and K. W. RANATUNGA, Tension relaxation after stretch in resting mammalian muscle fibers: stretch activation at physiological temperatures, J. Biophys., 70, 1432-8, 1996.
- 39. L. E. FORD, A. F. HUXLEY and R. M. SIMMONS, Proceedings: Mechanism of early tension recovery after a quick release in tetanized muscle fibres, J. Physiol., 240, 42P-43P, 1974.
- 40. L. E. FORD, A. F. HUXLEY and R. M. SIMMONS, Tension transients during steady shortening of frog muscle fibres, J. Physiol., 361, 131-50, 1985.
- 41. F. J. JULIAN and M. R. SOLLINS, Variation of muscle stiffness with force at increasing speeds of shortening, J. Gen. Physiol., 66, 287-302, 1975.
- 42. R. J. PODOLSKY, A. C. NOLAN and S. A. ZAVELER, Cross-bridge properties derived from muscle isotonic velocity transients, 64, 504-511, 1969.
- 43. R. J. PODOLSKY and A. C. NOLAN, Muscle contraction transients, cross-bridge kinetics, and the Fenn effect, 37, 661-668, 1973.
- 44. H. E. ter KEURS, T. IWAZUMI and G. H. POLLACK, The sarcomere length-tension relation in skeletal muscle, J. Gen. Physiol., 72, 565-92, 1978.
- 45. W. 0. FENN, A quantitative comparison between the energy liberated and the work performed by the isolated sa,rtorius of the frog, J. Physiol., 58, 378-395, 1923.
- 46. W. 0. PENN, The relationships between the work performed and the energy liberated in muscular contraction, J. Physiol., 58, 378-395, 1924.
- 47. S. JEMIOŁO, J. J. TELEGA, Modelling elastic behaviour of soft tissues. Part I. Isotropy, Engng. Trans., this issue.
- 48. S. JEMIOŁO, J. J. TELEGA, Modelling elastic behaviour of soft tissues. Part II. Transverse isotropy, Engng. Trans., this issue.
- 49. L. SKUBISZAK, Force generation in muscle. 1. Molecular organization in the thick filament, Biocyb. Biomed. Engng., 13, 75-96, 1993.
- 50. L. SKUBISZAK, L. KOWALCZYK, Computer animation of muscle contraction, Fifth Conference of the European Society for Engineering and Medicine, 1, 29-30, Barcelona, Spain 1999.
- 51. L. SKUBISZAK, L. KOWALCZYK, Application of the computer simulation for examination of the structure and contraction mechanism of muscles [in Polish], Symulacja w Badaniach i Rozwoju, 111, Białystok 1999.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-article-BPB2-0004-0071