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D L Mykles

Showing results (11-20 of 46) with videos related to

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Comparative Biochemistry and Physiology. Part B, Biochemistry & Molecular Biology|July 1, 1997
Crustacean muscle plasticity: molecular mechanisms determining mass and contractile propertiesD L Mykles
The Journal of Experimental Zoology|June 1, 1989
High-molecular-weight serine proteinase from lobster muscle that degrades myofibrillar proteinsD L Mykles
Advances in Space Research : the Official Journal of the Committee on Space Research (COSPAR)|January 1, 1996
Crustaceans as a model for microgravity-induced muscle atrophyD L Mykles
Methods in Cell Biology|June 9, 2001
Proteinase families and their inhibitorsD L Mykles
The Journal of Experimental Zoology|December 15, 1993
Cloning of a crustacean myosin heavy chain isoform: exclusive expression in fast muscleJ L Cotton, D L Mykles
The Journal of Biological Chemistry|September 10, 1983
Ca2+-dependent proteolytic activity in crab claw muscle. Effects of inhibitors and specificity for myofibrillar proteinsD L Mykles, D M Skinner
Journal of Ultrastructure Research|June 1, 1981
Preferential loss of thin filaments during molt-induced atrophy in crab claw muscleD L Mykles, D M Skinner
The Journal of Biological Chemistry|July 25, 1986
Four Ca2+-dependent proteinase activities isolated from crustacean muscle differ in size, net charge, and sensitivity to Ca2+ and inhibitorsD L Mykles, D M Skinner
Progress in Clinical and Biological Research|January 1, 1985
The role of calcium-dependent proteinase in molt-induced claw muscle atrophyD L Mykles, D M Skinner
Methods in Molecular Biology (Clifton, N.J.)|May 20, 2000
Calpain zymography with casein or fluorescein isothiocyanate caseinJ S Arthur, D L Mykles
Pageof 5

Showing results (11-20 of 46) with videos related to

Sort By:
Pageof 5
Comparative Biochemistry and Physiology. Part B, Biochemistry & Molecular Biology|July 1, 1997
Crustacean muscle plasticity: molecular mechanisms determining mass and contractile propertiesD L Mykles
The Journal of Experimental Zoology|June 1, 1989
High-molecular-weight serine proteinase from lobster muscle that degrades myofibrillar proteinsD L Mykles
Advances in Space Research : the Official Journal of the Committee on Space Research (COSPAR)|January 1, 1996
Crustaceans as a model for microgravity-induced muscle atrophyD L Mykles
Methods in Cell Biology|June 9, 2001
Proteinase families and their inhibitorsD L Mykles
The Journal of Experimental Zoology|December 15, 1993
Cloning of a crustacean myosin heavy chain isoform: exclusive expression in fast muscleJ L Cotton, D L Mykles
The Journal of Biological Chemistry|September 10, 1983
Ca2+-dependent proteolytic activity in crab claw muscle. Effects of inhibitors and specificity for myofibrillar proteinsD L Mykles, D M Skinner
Journal of Ultrastructure Research|June 1, 1981
Preferential loss of thin filaments during molt-induced atrophy in crab claw muscleD L Mykles, D M Skinner
The Journal of Biological Chemistry|July 25, 1986
Four Ca2+-dependent proteinase activities isolated from crustacean muscle differ in size, net charge, and sensitivity to Ca2+ and inhibitorsD L Mykles, D M Skinner
Progress in Clinical and Biological Research|January 1, 1985
The role of calcium-dependent proteinase in molt-induced claw muscle atrophyD L Mykles, D M Skinner
Methods in Molecular Biology (Clifton, N.J.)|May 20, 2000
Calpain zymography with casein or fluorescein isothiocyanate caseinJ S Arthur, D L Mykles
Pageof 5