Biochemistry of Muscle ContractionJohn Gergely |
Contents
INTRODUCTION J T Edsall Chairman | 3 |
THE 3S COMPONENT OF MYOSIN David R Kominz and Marc | 19 |
MECHANISMS FOR THE PRODUCTION OF THE MERO | 27 |
Copyright | |
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A. G. SZENT-GYÖRGYI ABRM actin filaments actomyosin actomyosin system amount anti-myosin antibody ATPase activity band Bárány binding birefringence bonds bound Ca++ calcium cardiac myosin cent component concentration contractile contraction creatine curve digestion dissociation Ebashi EDTA effect energy enzyme exchange experiments extracted F-actin fiber bundles fibrils FIGURE GERGELY glycerinated guanidine Hanson Hasselbach histidine Holtzer Huxley hydrolysis inhibition interaction ionic strength isometric KOMINZ lattice load Lowey Martonosi measurements mechanism ments meromyosins mg per ml Mg++ MgCl2 minutes mole molecular weight Mommaerts muscle fibers myofibrils myosin molecules negatively stained nucleotide observed obtained Oosawa oxalate P₁ paramyosin peptide PERRY Ph.D phosphate phosphocreatine phosphorylation polymerization preparations present protein pyrophosphate reaction relaxing factor residues sarcomere sarcomere length sedimentation shortening shown shows skeletal solution stretch structure studies subunits temperature tension thick filaments tion tropomyosin trypsin tryptic vesicles viscosity Weber Z band