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W F Harrington

Showing results (1-10 of 66) with videos related to

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Proceedings of the National Academy of Sciences of the United States of America|March 1, 1971
A mechanochemical mechanism for muscle contractionW F Harrington
Proceedings of the National Academy of Sciences of the United States of America|October 1, 1979
On the origin of the contractile force in skeletal muscleW F Harrington
Journal of Molecular Biology|July 15, 1981
Cross-bridge movement and the conformational state of the myosin hinge in skeletal muscleH Ueno, W F Harrington
Proceedings of the National Academy of Sciences of the United States of America|October 1, 1981
Conformational transition in the myosin hinge upon activation of muscleH Ueno, W F Harrington
Journal of Molecular Biology|February 15, 1984
An enzyme-probe method to detect structural changes in the myosin rodH Ueno, W F Harrington
Journal of Molecular Biology|June 15, 1973
Isolation and composition of thick filaments from rabbit skeletal muscleK Morimoto, W F Harrington
Biochemistry|April 11, 1972
Geometry of the myosin dimer in high-salt media. II. Hydrodynamic studies on macromodels of myosin and its rod segmentsM Burke, W F Harrington
Biopolymers|January 1, 1987
Structural transitions in myosin and the origin of contractile force in muscleW F Harrington, H Ueno
Biochemistry|May 31, 1977
Cross-linking of myosin thick filaments under activating and rigor conditions. A study of the radial disposition of cross-bridgesK Sutoh, W F Harrington
Nature|September 10, 1971
Geometry of the myosin dimerM Burke, W F Harrington
Pageof 7

Showing results (1-10 of 66) with videos related to

Sort By:
Pageof 7
Proceedings of the National Academy of Sciences of the United States of America|March 1, 1971
A mechanochemical mechanism for muscle contractionW F Harrington
Proceedings of the National Academy of Sciences of the United States of America|October 1, 1979
On the origin of the contractile force in skeletal muscleW F Harrington
Journal of Molecular Biology|July 15, 1981
Cross-bridge movement and the conformational state of the myosin hinge in skeletal muscleH Ueno, W F Harrington
Proceedings of the National Academy of Sciences of the United States of America|October 1, 1981
Conformational transition in the myosin hinge upon activation of muscleH Ueno, W F Harrington
Journal of Molecular Biology|February 15, 1984
An enzyme-probe method to detect structural changes in the myosin rodH Ueno, W F Harrington
Journal of Molecular Biology|June 15, 1973
Isolation and composition of thick filaments from rabbit skeletal muscleK Morimoto, W F Harrington
Biochemistry|April 11, 1972
Geometry of the myosin dimer in high-salt media. II. Hydrodynamic studies on macromodels of myosin and its rod segmentsM Burke, W F Harrington
Biopolymers|January 1, 1987
Structural transitions in myosin and the origin of contractile force in muscleW F Harrington, H Ueno
Biochemistry|May 31, 1977
Cross-linking of myosin thick filaments under activating and rigor conditions. A study of the radial disposition of cross-bridgesK Sutoh, W F Harrington
Nature|September 10, 1971
Geometry of the myosin dimerM Burke, W F Harrington
Pageof 7