Results 211 to 220 of about 101,738 (257)
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Calmodulin Antagonists Enhance Calcium Binding to Calmodulin
Pharmacology, 2008The effects of calmodulin (CaM) antagonists, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7) and its derivatives or trifluoperazine (TFP) on the Ca2+ binding to CaM were investigated. In the presence of these CaM antagonists, the extent of the Ca2+ binding to CaM increased.
M, Inagaki, T, Tanaka, H, Hidaka
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CALMODULIN AND CALMODULIN-BINDING PROTEINS IN PLANTS
Annual Review of Plant Physiology and Plant Molecular Biology, 1998▪ Abstract  Calmodulin is a small Ca2+-binding protein that acts to transduce second messenger signals into a wide array of cellular responses. Plant calmodulins share many structural and functional features with their homologs from animals and yeast, but the expression of multiple protein isoforms appears to be a distinctive feature of higher plants ...
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Cell Calcium, 1992
A description of the value of calcium and calmodulin is given in terms of their dynamics and structures. It is insisted that a full appreciation of their value demands recognition of the time domain, motion, in evolution in concert with structure. Only in this way can homeostasis of resting states as well as triggering, assisted by calcium/calmodulin ...
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A description of the value of calcium and calmodulin is given in terms of their dynamics and structures. It is insisted that a full appreciation of their value demands recognition of the time domain, motion, in evolution in concert with structure. Only in this way can homeostasis of resting states as well as triggering, assisted by calcium/calmodulin ...
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Cell Calcium, 1981
Calmodulin (CaM) is a major intracellular receptor for Ca2+. CaM is thus a crucial receptor to consider in pharmacological modification of cellular activity. Potential mechanisms by which drugs may modify CaM effectiveness are considered in the context of its interaction with Ca2+ and in turn with its various effectors.
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Calmodulin (CaM) is a major intracellular receptor for Ca2+. CaM is thus a crucial receptor to consider in pharmacological modification of cellular activity. Potential mechanisms by which drugs may modify CaM effectiveness are considered in the context of its interaction with Ca2+ and in turn with its various effectors.
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REGULATORY FUNCTIONS OF CALMODULIN
Pharmacology & Therapeutics, 1991Calmodulin is a Ca2+ binding protein present in all eukaryotic cells that serves as the primary intracellular receptor for Ca2+. This 148 amino acid protein is involved in activation of more than 20 enzymes which mediate a wide variety of physiological processes.
A R, Means +4 more
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Canadian Journal of Biochemistry and Cell Biology, 1983
Calmodulin is the most widely distributed and most versatile member of a family of calcium-binding proteins which probably serve as receptors for the Ca2+ signal. Through the regulation of a wide variety of intracellular enzymes, calmodulin plays a key role in many physiological processes.
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Calmodulin is the most widely distributed and most versatile member of a family of calcium-binding proteins which probably serve as receptors for the Ca2+ signal. Through the regulation of a wide variety of intracellular enzymes, calmodulin plays a key role in many physiological processes.
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Calmodulin and calmodulin-binding proteins in brain
Biochemical Society Transactions, 1980R J, Grand, S V, Perry
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Calmodulin and calmodulin-binding proteins in the nucleus
Cell Calcium, 1994O, Bachs, N, Agell, E, Carafoli
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