液态和固态氯离子敏感微电极。特性及其在藤壶光感受器细胞内氯离子活性测定中的应用

Liquid and solid-state Cl- -sensitive microelectrodes. Characteristics and application to intracellular Cl- activity in Balanus photoreceptor.

作者信息

Saunders J H, Brown H M

出版信息

J Gen Physiol. 1977 Oct;70(4):507-30. doi: 10.1085/jgp.70.4.507.

DOI:10.1085/jgp.70.4.507

PMID:21223

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2228502/

Abstract

When intracellular chloride activity (aiCl) was monitored with chloride-sensitive liquid ion exchanges (CLIX) microelectrodes in Balanus photoreceptors, replacement of extracellular chloride (Cl0) by methanesulfonate or glutamate was followed by a rapid but incomplete loss of aiCl. When propionate was used as the extracellular anion substitute, CLIX electrodes detected an apparent gain in aiCl, while a newly designed Ag-AgCl wire-in glass microelectrode showed a loss of aiCl under the same conditions. This discrepancy in Cl- washout when propionate replaced Cl0 is explained by the differences in selectivity of CLIX and Ag-AgCl electrodes for native intracellular anions and for the extracellular anion substitute which also replaces Cli and interferes in the determination of aiCl. Both electrodes indicate that ECl approximately Em when the cells are bathed in normal barnacle saline, and both electrodes showed the rate of Cl washout (tau approximately 5 min) to be independent of Cli when Cl0 was replaced by glutamate. Details of Ag-AgCl microelectrode construction are presented. These electrodes were tested and found to be insensitive to the organic anion substitutes used in this study. Selectivity data of CLIX electrodes for several anions of biological interest are described.

摘要

当使用氯离子敏感型液体离子交换（CLIX）微电极监测藤壶光感受器中的细胞内氯离子活性（aiCl）时，用甲磺酸盐或谷氨酸替代细胞外氯离子（Cl0）后，aiCl会迅速但不完全丧失。当使用丙酸盐作为细胞外阴离子替代物时，CLIX电极检测到aiCl明显增加，而新设计的玻璃内银丝氯化银微电极在相同条件下显示aiCl降低。当丙酸盐替代Cl0时氯离子洗脱的这种差异，是由CLIX电极和氯化银电极对天然细胞内阴离子以及对也替代Cli并干扰aiCl测定的细胞外阴离子替代物的选择性差异所解释的。当细胞浸浴在正常藤壶盐溶液中时，两个电极均表明ECl约等于Em，并且当Cl0被谷氨酸替代时，两个电极均显示氯离子洗脱速率（τ约为5分钟）与Cli无关。文中介绍了氯化银微电极的构建细节。对这些电极进行了测试，发现它们对本研究中使用的有机阴离子替代物不敏感。描述了CLIX电极对几种具有生物学意义的阴离子的选择性数据。

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