酵母作为研究碱金属阳离子转运和稳态的模式生物。

Yeast as a model organism to study transport and homeostasis of alkali metal cations.

作者信息

Sychrová H

机构信息

Department of Membrane Transport, Institute of Physiology, Academy of Sciences of the Czech Republic, Prague, Czech Republic.

出版信息

Physiol Res. 2004;53 Suppl 1:S91-8.

PMID:15119939

Abstract

To maintain an optimum cytoplasmic K(+)/Na+ ratio, cells employ three distinct strategies: 1) strict discrimination among alkali metal cations at the level of influx, 2) efficient efflux of toxic cations from cells, and 3) selective sequestration of cations in organelles. Cation efflux and influx are mediated in cells by systems with different substrate specificities and diverse mechanisms, e.g. ATPases, symporters, antiporters, and channels. Simple eukaryotic yeast Saccharomyces cerevisiae cells proved to be an excellent model for studying the transport properties and physiological function of alkali-metal-cation transporters, and the existence of mutant strains lacking their own transport systems provided an efficient tool for a molecular study of alkali-metal-cation transporters from higher eukaryotes upon their expression in yeast cells.

摘要

为维持最佳的细胞质钾离子/钠离子比例，细胞采用三种不同策略：1）在离子流入水平对碱金属阳离子进行严格区分；2）将有毒阳离子有效地排出细胞；3）将阳离子选择性地隔离在细胞器中。细胞中的阳离子外流和内流由具有不同底物特异性和多种机制的系统介导，例如ATP酶、同向转运体、反向转运体和离子通道。简单的真核酵母酿酒酵母细胞被证明是研究碱金属阳离子转运蛋白的转运特性和生理功能的优秀模型，缺乏自身转运系统的突变菌株的存在为在酵母细胞中表达时对高等真核生物的碱金属阳离子转运蛋白进行分子研究提供了有效工具。

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酵母作为研究碱金属阳离子转运和稳态的模式生物。

Yeast as a model organism to study transport and homeostasis of alkali metal cations.

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