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By Prof. Dr. W. Hasselbach (auth.), Ruthard Jacob (eds.)

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Claes, M A. Goethals: Effect of calcium on force-velocitylength relations of heart muscle of the cat. Circulat. Res. 32, 385-392 (1973). Brutsaert, D. , V. A. Claes, E. H Sonneblick: Velocity of shortening of unloaded heart muscle and the length-tension relation. Circulat. Res. 29, 63-75 (1971). De Clerck, N M, V. A. Claes, D. L. Brutsaert: Force velocity relations of single cardiac muscle cells. J. Gen. Physiol. 69, 221-241 (1977). Edman, K. A. : Maximum velocity of shortening in relation to sarcomere length and degree of activation of frog muscle fibres.

Physiol. 377, R 2 (1978). 13. Herzig, J. , J. C. Riiegg: Myocardial cross-bridge activity and its regulation by ca++, phosphate and stretch. In: Myocardial Failure, pp. : G. Riecker et al. (Berlin-Heidelberg-New York 1977). 14. Huxley, A. , R. M Simmons: Proposed mechanism of force generation in striated muscle. Nature 233, 533-538 (1971). 15. , J. W. Herzig, R. Achazi, J. C. Riiegg: Phosphorylation of regulatory proteins and ca++ activated ATPase activity in cardiac natural actomyosin, myofibrils and glycerinated muscle fibres.

10. , T. Mikawa, M Hirata, Y. Nonomura: The Regulatory Role of Calcium in Muscle. Ann. New York Acad. Sci. 307, 451 (1978). 11. : Structural Changes in the Actin- and Myosin-containing Filaments During Contraction. Cold Spring Harbor Symp. Quant. Biol. 37, 361 (1972). 12. Haselgrove, J. : X-Ray Evidence for a Conformational Change in the Actincontaining Filaments of Vertebrate Striated Muscle. Cold Spring Harbor Symp. Quant. Biol. 37, 341 (1972). 13. : Time resolved X-ray Diffraction Studies on Muscle: In CrossBridge Mechanism in Muscle Contraction.

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