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9
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本文引用的文献

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The influence of potassium and chloride ions on the membrane potential of single muscle fibres.钾离子和氯离子对单根肌纤维膜电位的影响。
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AN ELECTROGENIC SODIUM PUMP IN SNAIL NERVE CELLS.蜗牛神经细胞中的一种生电钠泵。
Comp Biochem Physiol. 1965 Jan;14:167-83. doi: 10.1016/0010-406x(65)90017-4.
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THE ACTION OF CARDIAC GLYCOSIDES ON ION MOVEMENTS.强心苷对离子运动的作用。
Pharmacol Rev. 1964 Dec;16:381-407.
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NEW LIGHT ON THE ACTIVE TRANSPORT OF SODIUM IONS FROM SKELETAL MUSCLE.骨骼肌中钠离子主动转运的新见解
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Kinetics of ion movement in the squid giant axon.乌贼巨大轴突中离子运动的动力学
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6
Membrane current and intracellular sodium changes in a snail neurone during extrusion of injected sodium.注射钠排出过程中蜗牛神经元的膜电流和细胞内钠变化
J Physiol. 1969 Apr;201(2):495-514. doi: 10.1113/jphysiol.1969.sp008769.
7
A contribution of an electrogenic Na+ pump to membrane potential in Aplysia neurons.电生性钠泵对海兔神经元膜电位的作用。
J Gen Physiol. 1968 Jul;52(1):1-21. doi: 10.1085/jgp.52.1.1.
8
The ionic permeability changes during acetylcholine-induced responses of Aplysia ganglion cells.海兔神经节细胞在乙酰胆碱诱导反应过程中的离子通透性变化。
J Gen Physiol. 1968 Mar;51(3):321-45. doi: 10.1085/jgp.51.3.321.
9
The effect of temperature change on membrane potential and conductance in Aplysia giant nerve cell.温度变化对海兔巨大神经细胞膜电位和电导的影响。
Comp Biochem Physiol. 1970 Jun 15;34(4):847-52. doi: 10.1016/0010-406x(70)91007-8.
10
Contributions of the sodium pump and ionic gradients to the membrane potential of a molluscan neurone.钠泵和离子梯度对软体动物神经元膜电位的作用。
J Physiol. 1970 Nov;210(4):897-917. doi: 10.1113/jphysiol.1970.sp009248.

海兔腹神经节巨型神经元对钾的主动转运。

Active transport of potassium by the giant neuron of the aplysia abdominal ganglion.

作者信息

Russell J M, Brown A M

出版信息

J Gen Physiol. 1972 Nov;60(5):519-33. doi: 10.1085/jgp.60.5.519.

DOI:10.1085/jgp.60.5.519
PMID:4644326
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2226092/
Abstract

We measured the internal potassium activity, a(i) (K), and membrane potential, E(m), simultaneously in 111 R2 giant neurons of Aplysia californica. a(i) (K) was 165.3 +/- 3.4 mM, E(m) was -47.8 +/- 0.9 mv, and E(K) calculated using the Nernst equation was -76.9 +/- 0.05 mv. Such values were maintained for as long as 6 hr of continuous recording in untreated cells, a(i) (K) fell exponentially after the following treatments: cooling to 0.5 degrees -4 degrees C, ouabain, zero external potassium, 2,4-dinitrophenol, and cyanide. The effects of cooling and zero potassium were reversible. Potassium permeability was calculated from net potassium flux using the constant field equation and ranged from 2.6 to 18.5 x 10(-8) cm/sec. We conclude that potassium is actively transported into this neuron against a 30-40 mv electrochemical gradient.

摘要

我们同时测量了加州海兔111个R2巨神经元的细胞内钾离子活性(a(i) (K))和膜电位(E(m))。a(i) (K)为165.3±3.4 mM,E(m)为-47.8±0.9 mV,使用能斯特方程计算出的E(K)为-76.9±0.05 mV。在未经处理的细胞中,连续记录长达6小时,这些值都能保持稳定。在进行以下处理后,a(i) (K)呈指数下降:冷却至0.5摄氏度至4摄氏度、哇巴因、外部钾离子浓度为零、2,4-二硝基苯酚和氰化物。冷却和钾离子浓度为零的影响是可逆的。使用恒定场方程根据净钾离子通量计算出钾离子通透性,范围为2.6至18.5×10(-8) cm/秒。我们得出结论,钾离子是逆着30 - 40 mV的电化学梯度被主动转运到该神经元中的。