胰腺β细胞中膜振荡的最小模型。
Minimal model for membrane oscillations in the pancreatic beta-cell.
作者信息
Chay T R, Keizer J
出版信息
Biophys J. 1983 May;42(2):181-90. doi: 10.1016/S0006-3495(83)84384-7.
Abstract
Following the experimental findings of Atwater et al. (In Biochemistry Biophysics of the Pancreatic-beta-Cell, George Thieme Verlag, New York, 100-107), we have formulated a mathematical model for ionic and electrical events that take place in pancreatic-beta-cells. Our formulation incorporates a Hodgkin-Huxley type gating mechanism for Ca2+ and K+ channels, in addition to Ca2+ gated K+-channels. Consistent with the experimental observations, our model generates spikes and bursts in beta-cell membrane potentials and gives the correct responses to additions of glucose, quinine, and tetraethylammonium ions. The response of the oscillations to ouabain and changing concentrations of external K+ can be incorporated into the present model, although a more complete treatment would require inclusion of the Na+/K+ pump.
摘要
根据阿特沃特等人的实验结果(《胰腺β细胞的生物化学与生物物理学》,乔治·蒂梅出版社,纽约,第100 - 107页),我们建立了一个关于胰腺β细胞中发生的离子和电活动的数学模型。我们的模型除了包含钙门控钾通道外,还纳入了针对钙离子和钾离子通道的霍奇金 - 赫胥黎类型的门控机制。与实验观察结果一致,我们的模型在β细胞膜电位中产生尖峰和爆发,并对添加葡萄糖、奎宁和四乙铵离子给出正确的响应。尽管更完整的处理需要纳入钠钾泵,但振荡对哇巴因和外部钾离子浓度变化的响应可以纳入当前模型。
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