通过钠通量揭示的犬红细胞中的细胞不均一性。

Cellular inhomogeneity in dog red cells as revealed by sodium flux.

作者信息

Lange Y, Lange R V, Solomon A K

出版信息

J Gen Physiol. 1970 Oct;56(4):438-61. doi: 10.1085/jgp.56.4.438.

DOI:10.1085/jgp.56.4.438

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2225968/

Abstract

Unidirectional (24)Na fluxes across the dog red blood cell membrane were measured. The kinetics were incompatible with a single time constant but could be accounted for in terms of a two-series compartment cell model, with approximately 1% of cell Na in the outer compartment. Dog red blood cells are known to be inhomogeneous in their Na and K permeabilities. Theoretical analysis showed that such cellular inhomogeneity in the Na permeability coefficient might in principle account for the flux data. In order to evaluate the inhomogeneity effect, a technique based on the differential response of cells suspended in isosmolar high K buffers was devised to measure the variations in Na permeability in the cell population. A variation in the Na permeability coefficient of approximately 30% was found. This inhomogeneity is insufficient to account for the flux data.

摘要

对狗红细胞膜上的单向（24）钠通量进行了测量。动力学与单一时间常数不相符，但可以用双串联隔室细胞模型来解释，在外隔室中约有1%的细胞钠。已知狗红细胞的钠和钾通透性是不均匀的。理论分析表明，钠通透性系数中的这种细胞不均匀性原则上可能是通量数据的原因。为了评估不均匀性效应，设计了一种基于悬浮在等渗高钾缓冲液中的细胞的差异反应的技术，以测量细胞群体中钠通透性的变化。发现钠通透性系数有大约30%的变化。这种不均匀性不足以解释通量数据。

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本文引用的文献

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The haemolytic action of potassium salts.钾盐的溶血作用。

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2

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Cation transport in Escherichia coli. I. Intracellular Na and K concentrations and net cation movement.大肠杆菌中的阳离子转运。I. 细胞内钠和钾的浓度以及阳离子的净移动

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