随机诱变揭示了酵母钾离子通道Ykc1门控的一个重要区域。

Random mutagenesis reveals a region important for gating of the yeast K+ channel Ykc1.

作者信息

Loukin S H, Vaillant B, Zhou X L, Spalding E P, Kung C, Saimi Y

机构信息

Laboratory of Molecular Biology, University of Wisconsin, Madison 53706, USA.

出版信息

EMBO J. 1997 Aug 15;16(16):4817-25. doi: 10.1093/emboj/16.16.4817.

DOI:10.1093/emboj/16.16.4817

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1170117/

Abstract

YKC1 (TOK1, DUK1, YORK) encodes the outwardly rectifying K+ channel of the yeast plasma membrane. Non-targeted mutations of YKC1 were isolated by their ability to completely block proliferation when expressed in yeast. All such mutations examined occurred near the cytoplasmic ends of the transmembrane segments following either of the duplicated P loops, which we termed the 'post-P loop' (PP) regions. These PP mutations specifically caused marked defects in the 'C1' states, a set of interrelated closed states that Ykc1 enters and exits at rates of tens to hundreds of milliseconds. These results indicate that the Ykc1 PP region plays a role in determining closed state conformations and that non-targeted mutagenesis and microbial selection can be a valuable tool for probing structure-function relationships of ion channels.

摘要

YKC1（TOK1、DUK1、YORK）编码酵母质膜外向整流钾离子通道。YKC1的非靶向突变体是通过其在酵母中表达时完全阻断增殖的能力分离得到的。所有检测的此类突变均发生在重复的P环之后跨膜片段的胞质末端附近，我们将其称为“P环后”（PP）区域。这些PP突变特别导致“C1”状态出现明显缺陷，“C1”状态是一组相互关联的关闭状态，Ykc1以数十到数百毫秒的速率进出该状态。这些结果表明，Ykc1的PP区域在确定关闭状态构象中起作用，并且非靶向诱变和微生物筛选可能是探究离子通道结构-功能关系的有价值工具。

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2

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3

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