通过磷膜蛋白通道分子的单一阴离子电流。

Unitary anion currents through phospholemman channel molecules.

作者信息

Moorman J R, Ackerman S J, Kowdley G C, Griffin M P, Mounsey J P, Chen Z, Cala S E, O'Brian J J, Szabo G, Jones L R

机构信息

Department of Internal Medicine (Cardiovascular Division), University of Virginia Health Sciences Center, Charlottesville 22908, USA.

出版信息

Nature. 1995 Oct 26;377(6551):737-40. doi: 10.1038/377737a0.

DOI:10.1038/377737a0

PMID:7477264

Abstract

Phospholemman (PLM) is a 72-amino-acid peptide with a single transmembrane domain, the expression of which induces chloride currents in Xenopus oocytes. It has remained unknown whether PLM is an ion channel or acts as a channel regulator. Here we show, by measuring unitary anion currents across planar phospholipid bilayers to which immunoaffinity-purified recombinant PLM was added, that it does indeed form ion channels. Excised patches of oocytes expressing PLM had similar currents. Of the ions tested, the sulphonic amino acid taurine was the most permeant, and expression of PLM increased fluxes of radiolabelled taurine in oocytes. Phospholemman is the smallest protein in cell membranes known to form an ion channel and the taurine selectivity suggests that it is involved in cell volume regulation.

摘要

磷肌醇蛋白（PLM）是一种含有单个跨膜结构域的72个氨基酸的肽，其表达可在非洲爪蟾卵母细胞中诱导氯化物电流。PLM是一种离子通道还是作为通道调节剂一直未知。在这里，我们通过测量添加了免疫亲和纯化的重组PLM的平面磷脂双分子层上的单通道阴离子电流表明，它确实形成了离子通道。表达PLM的卵母细胞的切除膜片具有相似的电流。在所测试的离子中，磺酸氨基酸牛磺酸渗透性最强，PLM的表达增加了卵母细胞中放射性标记牛磺酸的通量。磷肌醇蛋白是已知的细胞膜中形成离子通道的最小蛋白质，牛磺酸选择性表明它参与细胞体积调节。

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通过磷膜蛋白通道分子的单一阴离子电流。

Unitary anion currents through phospholemman channel molecules.

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