在等渗条件下由钠/葡萄糖共转运体介导的水转运。

Water transport by the Na+/glucose cotransporter under isotonic conditions.

作者信息

Zeuthen T, Meinild A K, Klaerke D A, Loo D D, Wright E M, Belhage B, Litman T

机构信息

Panum Institute, University of Copenhagen, Department of Medical Physiology.

出版信息

Biol Cell. 1997 Aug;89(5-6):307-12. doi: 10.1016/s0248-4900(97)83383-7.

DOI:10.1016/s0248-4900(97)83383-7

PMID:9468601

Abstract

Solute cotransport in the Na+/glucose cotransporter is directly coupled to significant water fluxes. The water fluxes are energized by the downhill fluxes of the other substrates by a mechanism within the protein itself. In the present paper we investigate the Na+/glucose cotransporter expressed in Xenopus oocytes. We present a method which allows short-term exposures to sugar under voltage clamp conditions. We demonstrate that water is cotransported with the solutes despite no osmotic differences between the external and intracellular solutions. There is a fixed ratio of 195:1 between the number of water molecules and the number of Na+ ions transported, equivalent to 390 water molecules per glucose molecule. Unstirred layer effects are ruled out on the basis of experiments on native oocytes incubated with the ionophores gramicidin D or nystatin.

摘要

钠/葡萄糖共转运体中的溶质共转运与显著的水通量直接相关。水通量由蛋白质自身内部的一种机制通过其他底物的顺梯度通量提供能量。在本文中，我们研究了非洲爪蟾卵母细胞中表达的钠/葡萄糖共转运体。我们提出了一种在电压钳制条件下允许短期暴露于糖类的方法。我们证明，尽管细胞外和细胞内溶液之间没有渗透差异，但水与溶质是共转运的。水分子与转运的钠离子数量之间存在195:1的固定比例，相当于每葡萄糖分子有390个水分子。基于用离子载体短杆菌肽D或制霉菌素孵育的天然卵母细胞的实验，排除了unstirred层效应。

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在等渗条件下由钠/葡萄糖共转运体介导的水转运。

Water transport by the Na+/glucose cotransporter under isotonic conditions.

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