Molecular Biology of Muscular ContractionSetsurō Ebashi |
Contents
A Theoretical Approach to Muscle Function | 1 |
Structure and Function of Myosin | 11 |
W WAYNE Kielley | 24 |
Copyright | |
11 other sections not shown
Common terms and phrases
acetone acid Acta actin action potential activity of myosin actomyosin added alcohol allosteric anion ATPase activity binding Biochem Biochemistry Biol Biophys bound buffer bundle of myofibrils Ca++ CaCl2 centrifugation Chem chloride complex conformational change contraction contracture coupled reaction creatine kinase creatine liberation creatine phosphate curve difference dissociation divalent cations Ebashi EDTA effect effectors excitation-contraction coupling flow birefringence formamide fraction G-actin Gergely H-meromyosin helical histidine incubation induced inhibition interaction Kielley measured membrane resistance metal ion mg per ml mg/ml Mg++ MgCl2 microsomes minutes molecular monomers myofibrils myosin ATPase myosin molecule n-butanol nucleotides observed obtained organic solvents oxalate Pb++ Physiol polymer polymerization potassium presence protein protein concentration reaction mixture red muscle relaxing activity salt sarcoplasmic reticulum sedimentation shown in Fig sodium solution SPPTN Sr++ structure substitution substrate subunit sucrose superprecipitation Table tion Tokyo Tonomura triphosphate Tris-HCl twitch potentiation twitch tension urea vesicles viscosity