克隆的内向整流钾通道对细胞内精胺的差异敏感性的结构决定因素。

A structural determinant of differential sensitivity of cloned inward rectifier K+ channels to intracellular spermine.

作者信息

Fakler B, Brändle U, Bond C, Glowatzki E, König C, Adelman J P, Zenner H P, Ruppersberg J P

机构信息

Department of Sensory Biophysics, ENT-Hospital of the University of Tübingen, Germany.

出版信息

FEBS Lett. 1994 Dec 19;356(2-3):199-203. doi: 10.1016/0014-5793(94)01258-x.

DOI:10.1016/0014-5793(94)01258-x

PMID:7805837

Abstract

Large subtype-specific differences in the sensitivity of cloned inward-rectifier K+ channels of the IRK1, BIR10 and ROMK1 subtype to being blocked by intracellular spermine (SPM) are described. It is shown, by site-directed mutagenesis, that the four orders of magnitude larger SPM sensitivity of BIR10 channels compared to ROMK1 channels may be explained by a difference in a single amino acid in the putative transmembrane segment TMII. This residue, a negatively charged glutamate in BIR10, is homologous to the residue in IRK1 and ROMK1 which has previously been shown to change gating properties and Mg2+ sensitivity. Differential block by physiological SPM concentrations is suggested as a major functional difference between subtypes of inward-rectifier K+ channels.

摘要

本文描述了IRK1、BIR10和ROMK1亚型的克隆内向整流钾通道对细胞内精胺（SPM）阻断的敏感性存在较大的亚型特异性差异。通过定点诱变表明，与ROMK1通道相比，BIR10通道对SPM的敏感性高四个数量级，这可能是由假定的跨膜片段TMII中单个氨基酸的差异所解释。这个残基在BIR10中是带负电荷的谷氨酸，与IRK1和ROMK1中的残基同源，先前已证明该残基可改变门控特性和Mg2+敏感性。生理浓度的SPM的差异阻断被认为是内向整流钾通道亚型之间的主要功能差异。

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克隆的内向整流钾通道对细胞内精胺的差异敏感性的结构决定因素。

A structural determinant of differential sensitivity of cloned inward rectifier K+ channels to intracellular spermine.

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