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401.
402.
Our previous studies have demonstrated that calmodulin binds to IP3R type I (IP3R1) in a Ca2+ dependent manner, which suggests that calmodulin regulates the IP3R1 channel. In the present study, we investigated real-time kinetics of interactions between calmodulin and IP3R1 as well as effects of calmodulin on IP3-induced Ca2+ release by purified and reconstituted IP3R1. Kinetic analysis revealed that calmodulin binds to IP3R1 in a Ca2+ dependent manner and that both association and dissociation phase consist of two components with time constants of k(a) = 4.46 x 10(2) and > 10(4) M(-1) s(-1) k(d) = 1.44 x 10(-2) and 1.17 x 10(-1) s(-1). The apparent dissociation constant was calculated to be 27.3 microM. The IP3-induced Ca2+ release through the purified and reconstituted IP3R1 was inhibited by Ca2+/calmodulin, in a dose dependent manner. We interpret our findings to mean that calmodulin binds to IP3R1 in a Ca2+ dependent manner to exert inhibitory effect on IP3R channel activity. This event may be one of the mechanisms governing the negative feedback regulation of IP3-induced Ca2+ release by Ca2+. 相似文献
403.
Morisaka Tadamichi Furuichi Tomo Kogi Kazunobu Yoshioka Motoi 《Journal of Ethology》2023,41(2):141-151
Journal of Ethology - The group definition for an animal population is important for building associations among individuals (i.e., social network). Indo-Pacific bottlenose dolphins (Tursiops... 相似文献
404.
M Onozuka H Furuichi S Imai S Ozono 《Comparative biochemistry and physiology. A, Comparative physiology》1991,99(3):419-428
1. The activation process of Ca(2+)-dependent potassium channel was studied electrophysiologically and pharmacologically using identified neurons of the land snail, Euhadra peliomphala. 2. Ca(2+)-mediated delayed outward K current (IKD) was dose-dependently reduced by the calmodulin inhibitors, N-(6-aminohexyl)-1-naphthalenesulfonamide (W-5, week) and N-(6-aminohexyl)-5-chloro-naphthalenesulfonamide (W-7, potent). These antagonists also caused a slight membrane depolarization and increase in impulse discharge frequency with decrease in the amplitude of both action potential and after hyperpolarization. 3. The cAMP-dependent protein kinase inhibitor N-[2-(methylamino) ethyl]-5-isoquinoline-sulfonamide (H-8) did not produce any significant effect on IKD and membrane potential. 4. Calmodulin, when injected into the neuron which had been treated with either W-5 or W-7, transiently restored the suppressed IKD nearly to the pretreatment level, and caused hyperpolarization of the cell. In contrast, calcium chloride, intracellularly injected in the same way, had little effect on both the IKD and the membrane potential shifted by these antagonists. 5. Intracellular injection of kinase II, a Ca2+/calmodulin-dependent protein kinase, caused an increase in the IKD and membrane hyperpolarization. Similar but weak effects were produced when a catalytic subunit (CS) of cAMP-dependent protein kinase was intracellularly injected. However, the neurons pretreated with W-7 no longer had any detectable increase in the IKD and hyperpolarization of the membrane. 6. These results suggest the possibility that Ca2+/camodulin-dependent protein phosphorylation may finally mediate the activation of a certain number of potassium channels. 相似文献