Мышечное сокращение: новый взгляд на старую проблему

Автор: Борхвардт Валентин Германович

Журнал: Русский орнитологический журнал @ornis

Статья в выпуске: 1250 т.25, 2016 года.

Бесплатный доступ

Короткий адрес: https://sciup.org/140160672

IDR: 140160672

Список литературы Мышечное сокращение: новый взгляд на старую проблему

Борхвардт В.Г. 2016. Механические преобразования живых полостных тел. СПб.: 1-140.
Иванов И.И. 1950. Химическая динамика мышц и подвижных клеток. М.: 1-254.
Полевой В.В., Саламатова Т.С. 1985. Эволюция способов движения у растений//Эволюция функций в растительном мире/В.В.Полевой, Ю.И.Маслова (ред.). Л.: 188-200.
Arner A. 1983. Force-velocity relation in chemically skinned rat portal vein//Pflügers Arch. 397: 6-12.
Bartels E.M., Elliott G.F. 1985. Donnan potentials from the A-and I-bands of glycerinated and chemically skinned muscles, relaxed and in rigor//Biophys. J. 48: 61-76.
Bartoo M.L, Popov V.I, Fearn L.A, Pollack G.H. 1993. Active tension generation in isolated skeletal myofibrils//J. Muscle Res. Cell Motil. 14: 498-510.
Carlsen F., Knappeis G.G., Buchthal F. 1961. Ultrastructure of the resting and contracted striated muscle fiber at different degrees of stretch//J. Biophys. Biochem. Cytol. 11: 95-117.
Colomo F., Piroddi N., Poggesi C., te Kronnie G., Tesi C. 1997. Active and passive forces of isolated myofibrils from cardiac and fast skeletal muscle of the frog//J. Physiol. 500: 535-548.
Cooke R. 2004. The sliding filament model: 1972-2004//J. Gen. Physiol. 123: 643-656.
Dillon P.F., Murphy R.A. 1982. High force development and crossbridge attachment in smooth muscle from swine carotid arteries//Circ. Res. 50: 799-804.
Draeger A., Amos W.B., Ikebe M., Small J.V. 1990. The cytoskeletal and contractile apparatus of smooth muscle: contraction bands and segmentation of the contractile elements//J. Cell Biol. 111: 2463-2473.
Edwards G.A., Ruska H., Souza S.P., Vallejo-Freire A. 1956. Comparative cytophysiology of striated muscle with special reference to the role of the endoplasmic reticulum//J. Biophys. Biochem. Cytol. 2: 143-156.
Elliott G.F. 1973. Donnan and osmotic effects in muscle fibers without membranes//J. Mechanochem. Cell Motil. 2: 83-89.
Fay F.S., Delise C.M. 1973. Contraction of isolated smooth-muscle cells -structural changes//Proc. Natl. Acad. Sci. USA 70: 641-645.
Friedman A.L., Goldman Y.E. 1996. Mechanical characterization of skeletal muscle myofibrils//Biophys. J. 71: 2774-2785.
Gillis J.M., Cao M.L., Godfraind-De Becker A. 1988. Density of myosin filaments in the rat anococcygeus muscle, at rest and in contraction. II//J. Muscle Res. Cell Motil. 9: 18-28.
Glück E., Paul R.J. 1977. The aerobic metabolism of porcine carotid artery and its relationship to isometric force//Pflügers Arch. 370: 9-18.
Godt R.E. 1981. A simple electrostatic model can explain the effect of pH upon the force-pCa relation of skinned frog skeletal muscle fibres//Biophys. J. 35: 385-392.
Godt R.E, Maughan D.W. 1977. Swelling of skinned muscle fibers of the frog. Experimental observations//Biophys. J. 19: 103-116.
Goldman Y.E., Simmons R.M. 1986. The stiffness of frog skinned muscle fibres at altered lateral filament spacing//J. Physiol. 378: 175-194.
Gordon A.M., Godt R.E., Donaldson S.K.B., Harris C.E. 1973. Tension in skinned frog muscle fibers in solutions of varying ionic strength and neutral salt composition//J. Gen. Physiol. 62: 550-574.
Gunst S.J., Fredberg J.J. 2003. The first three minutes: smooth muscle contraction, cytoskeletal events, and soft glasses//J. Appl. Physiol. 95: 413-425.
Hanson J. 1952. Changes in the cross-striation of myofibrils during contraction induced by adenosine triphosphate//Nature 169: 530-533.
Herrera A.M., McParland B.E., Bienkowska A., Tait R., Paré P.D., Seow C.Y. 2005. «Sarcomeres» of smooth muscle: functional characteristics and ultrastructural evidence//J. Cell Science. 118: 2381-2392.
Huxley A.F. 2000. Cross-bridge action: present views, prospects, and unknowns//J. Biomechanics 33: 1189-1195.
Huxley H.E. 2004. Fifty years of muscle and the sliding filament hypothesis//Eur. J. Biochem. 271: 1403-1415.
Ives H.E., Schultz G.S., Galardy R.E., Jamieson J.D. 1978. Preparation of functional smooth muscle cells from the rabbit aorta//J. Exp. Med. 148: 1400-1413.
Kargacin G.J., Cooke P.H., Abramson S.B., Fay F.S. 1989. Periodic organization of the contractile apparatus in smooth muscle revealed by the motion of dense bodies in single cells//J. Cell Biol. 108: 1465-1475.
Kargacin G.J., Fay F.S. 1987. Physiological and structural properties of saponin-skinned single smooth muscle cells//J. Gen. Physiol. 90: 49-73.
Kuo K.-H., Seow C. Y. 2004. Contractile filament architecture and force transmission in swine airway smooth muscle//J. Cell Sci. 117: 1503-1511.
Lionne C., Iorga B., Candau R., Travers F. 2003. Why choose myofibrils to study muscle myosin ATPase?//J. Muscle Res. Cell Motil. 24: 139-148.
Matsubara I., Elliott G.F. 1972. X-ray diffraction studies on skinned single fibres of frog skeletal muscle//J. Mol. Biol. 72: 657-669.
Millman B.M. 1998. The filament lattice of striated muscle//Physiol. Rev. 78: 359-391.
Murphy R.A., Herlihy J.T., Megerman J. 1974. Force-generating capacity and contractile protein content of arterial smooth muscle//J. Gen. Physiol. 64: 691-705.
Naylor G.R.S., Bartels E.M., Bridgman T.D., Elliott G.F. 1985. Donnan potentials in rabbit psoas muscle in rigor//Biophys. J. 48: 47-59.
Rayment I., Holden H.M., Whittaker M., Yohn C.B., Lorenz M., Holmes K.C., Milligan R.A. 1993. Structure of the actin-myosin complex and its implications for muscle contraction//Science 261: 58-65.
Rayment I., Rypnieswski W.R., Schmidt-Bäse K., Smith R., Tomchick D.R., Benning M.M., Winkelmann D.A., Wesenberg G., Holden H.M. 1993. Three-dimensional structure of myosin subfragment-1: a molecular motor//Science 261: 50-58.
Regini J.W., Elliott G.F. 2001. The effect of temperature on the Donnan potentials in biological polyelectrolyte gels: cornea and striated muscle//Intern. J. Biol. Macromol. 28: 245-254.
Siegman M.J., Butler T.M., Mooers S.U., Davies R.E. 1980. Chemical energetics of force development, force maintenance, and relaxation in mammalian smooth muscle//J. Gen. Physiol. 76: 609-629.
Small J.V., Herzog M., Barth M., Draeger A. 1990. Supercontracted state of vertebrate smooth muscle cell fragments reveals myofilament lengths//J. Cell Biol. 111: 2451-2461.
Somlyo A.P., Somlyo A.V. 1994. Signal transduction and regulation in smooth muscle//Nature 372: 231-236.
Telley I.A., Denoth J. 2007. Sarcomere dynamics during muscular contraction and their implications to muscle function//J. Muscle Res. Cell Motil. 28: 89-104.
Trimmer W.S.N. 1989. Microrobots and micromechanical systems//Sensors and Actuators 19: 267-287.
Tyreman M.J.A., Molloy J.E. 2003. Molecular motors: nature’s nanomachines//IEE Proc.-Nanobiotechnol. 150: 95-102.
Warshaw D.M., McBride W.J., Work S.S. 1987. Corkscrew-like shortening in single smooth muscle cells//Science 236: 1457-1459.
Warshaw D.M., Szarek J.L, Hubbard M.S., Evans J.N. 1986. Pharmacology and force development of single freshly isolated bovine carotid artery smooth muscle cells//Circ Res. 58: 399-406.
Xu J.-Q., Harder B.A., Uman P., Craig R. 1996. Myosin filament structure in vertebrate smooth muscle//J. Cell. Biol. 134: 53-66.
Yuri K., Wakayama J., Yamada T. 1998. Isometric contractile properties of single myofibrils of rabbit skeletal muscle//J. Biochem. 124: 565-571.

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