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Past and Future
The High Affinity Sites of Calmodulin for Ca2+ and Mn2+
Koichi Yagi Michio Yazawa Mikiharu Yoshida and Osamu Minowa
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Acad acid actin AMP-dependent protein kinase ATPase ATPase activity binding Biochem Biol Biophys Blackmore brain Ca-induced Ca release Ca2+ concentration Ca2+ ion concentration Ca2+-dependent hormones calcineurin calcium calmodulin calmodulin-dependent protein kinase CANP cells cellular centration changes Chem contractile cyclase cyclic AMP cytosolic cytosolic Ca2+ degradation dephosphorylated myosin diacylglycerol Ebashi effect EGTA enzyme Exton FEBS Lett FIGURE function hepatocytes histogram hydrolysis inactivation increase incubated indicated inhibition inhibitor inositol lipid intracellular Ca2+ ionic strength Katada kinetics labelling liver low affinity sites mCANP mechanism metabolism Mg2+ microtubule Mn2+ molecular myosin light chain N-domain Nishizuka phosphatase phosphate phosphatidate phosphatidylinositol phosphodiesterase phosphoinositide phospholipid phosphorylation Physiol physiological plasma membrane platelets polymerization presence Proc protease protein breakdown protein kinase proteolysis PtdIns PtdIns4P and PtdIns4,5P2 rate constant reaction response role shown in Fig skeletal muscle smooth muscle stimulation studies substrate subunit Takeda Science Foundation tein tion tissues tyrosine 3-monooxygenase vasopressin