论文信息 - A "molecular energy" muscle model. - 字舞流文

A "molecular energy" muscle model.

[1] D. Goodall,et al. Ionization of water induced by vibrational excitation using a neodymium: glass laser , 1971 .

[2] W. Lehman,et al. Regulation in molluscan muscles. , 1970, Journal of molecular biology.

[3] E. Taylor,et al. Myosin-product complex and its effect on the steady-state rate of nucleoside triphosphate hydrolysis. , 1970, Biochemistry.

[4] D. DeRosier,et al. Three-dimensional reconstruction of F-actin, thin filaments and decorated thin filaments. , 1970, Journal of molecular biology.

[5] H. R. Hulett,et al. Non-enzymatic Hydrolysis of Adenosine Phosphates , 1970, Nature.

[6] R. Stephens,et al. Efficient purely chemical CW laser operation , 1970 .

[7] S Ebashi,et al. Control of muscle contraction , 1969, Quarterly Reviews of Biophysics.

[8] H E Huxley,et al. The Mechanism of Muscular Contraction , 1965, Scientific American.

[9] Jerome V. V. Kasper,et al. HCl Chemical Laser , 1965 .

[10] R. Davies,et al. Adenosine Triphosphate: Changes in Muscles Doing Negative Work , 1964, Science.

[11] E. H. White,et al. Chemiluminescence of LUminol and Related Hydrazides: The Light Emission Step , 1964 .

[12] S. McGlynn,et al. Delayed Fluorescence of Solid Solutions of Polyacenes. IV. The Origin of Excimer Fluorescence , 1963 .

[13] F. D. Carlson,et al. Total Energy Production and Phosphocreatine Hydrolysis in the Isotonic Twitch , 1963, The Journal of general physiology.

[14] G. Oster,et al. Luminescence in Plastics , 1962, Nature.

[15] J. Polanyi. Energy Distribution Among Reagents and Products of Atomic Reactions , 1959 .

[16] Th. Förster,et al. Ein Konzentrationsumschlag der Fluoreszenz des Pyrens , 1954, Zeitschrift für Elektrochemie, Berichte der Bunsengesellschaft für physikalische Chemie.

[17] A. Huxley,et al. Structural Changes in Muscle During Contraction: Interference Microscopy of Living Muscle Fibres , 1954, Nature.

[18] Karl F. Herzfeld,et al. Calculation of Vibrational Relaxation Times in Gases , 1952 .

[19] N. Bohr. Light and Life , 1933, Nature.

[20] Leo Szilard,et al. Über die Ausdehnung der phänomenologischen Thermodynamik auf die Schwankungserscheinungen , 1925 .

[21] W. O. Fenn,et al. A quantitative comparison between the energy liberated and the work performed by the isolated sartorius muscle of the frog , 1923, The Journal of physiology.

[22] C W McClare,et al. Chemical machines, Maxwell's demon and living organisms. , 1971, Journal of theoretical biology.

[23] S. Ebashi,et al. Calcium ion and muscle contraction. , 1968, Progress in biophysics and molecular biology.

[24] J. Pringle. The contractile mechanism of insect fibrillar muscle. , 1967, Progress in biophysics and molecular biology.

[25] J. Lowy,et al. The structure of F-actin and of actin filaments isolated from muscle , 1963 .

[26] Th. Förster. Formation and dissociation of excited dimers , 1963 .

[27] W. Mommaerts,et al. Work and chemical change in isotonic muscular contractions. , 1962, Biochimica et biophysica acta.

[28] C. Mcdowell,et al. THE QUENCHING OF THE IODINE FLUORESCENCE SPECTRUM , 1958 .

[29] F. B. Straub,et al. [Adenosine triphosphate, the functional group of actin]. , 1950, Kiserletes orvostudomany.