保卫细胞的SLAC1型阴离子通道介导鞭毛蛋白诱导的气孔关闭。

Guard cell SLAC1-type anion channels mediate flagellin-induced stomatal closure.

作者信息

Guzel Deger Aysin, Scherzer Sönke, Nuhkat Maris, Kedzierska Justyna, Kollist Hannes, Brosché Mikael, Unyayar Serpil, Boudsocq Marie, Hedrich Rainer, Roelfsema M Rob G

机构信息

Molecular Plant Physiology and Biophysics, Julius-von-Sachs Institute for Biosciences, Biocenter, University of Würzburg, Julius-von-Sachs-Platz 2, D-97082, Würzburg, Germany.

Faculty of Science and Letters, Department of Biology, University of Mersin, 33343, Mersin, Turkey.

出版信息

New Phytol. 2015 Oct;208(1):162-73. doi: 10.1111/nph.13435. Epub 2015 Apr 30.

DOI:10.1111/nph.13435

PMID:25932909

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4949714/

Abstract

During infection plants recognize microbe-associated molecular patterns (MAMPs), and this leads to stomatal closure. This study analyzes the molecular mechanisms underlying this MAMP response and its interrelation with ABA signaling. Stomata in intact Arabidopsis thaliana plants were stimulated with the bacterial MAMP flg22, or the stress hormone ABA, by using the noninvasive nanoinfusion technique. Intracellular double-barreled microelectrodes were applied to measure the activity of plasma membrane ion channels. Flg22 induced rapid stomatal closure and stimulated the SLAC1 and SLAH3 anion channels in guard cells. Loss of both channels resulted in cells that lacked flg22-induced anion channel activity and stomata that did not close in response to flg22 or ABA. Rapid flg22-dependent stomatal closure was impaired in plants that were flagellin receptor (FLS2)-deficient, as well as in the ost1-2 (Open Stomata 1) mutant, which lacks a key ABA-signaling protein kinase. By contrast, stomata of the ABA protein phosphatase mutant abi1-1 (ABscisic acid Insensitive 1) remained flg22-responsive. These data suggest that the initial steps in flg22 and ABA signaling are different, but that the pathways merge at the level of OST1 and lead to activation of SLAC1 and SLAH3 anion channels.

摘要

在感染过程中，植物识别微生物相关分子模式（MAMPs），并导致气孔关闭。本研究分析了这种MAMP反应的分子机制及其与脱落酸（ABA）信号传导的相互关系。通过使用非侵入性纳米注入技术，用细菌MAMP鞭毛蛋白22（flg22）或应激激素ABA刺激完整拟南芥植物中的气孔。应用细胞内双管微电极来测量质膜离子通道的活性。flg22诱导气孔快速关闭，并刺激保卫细胞中的SLAC1和SLAH3阴离子通道。这两种通道的缺失导致细胞缺乏flg22诱导的阴离子通道活性，以及气孔对flg22或ABA无反应。在缺乏鞭毛蛋白受体（FLS2）的植物以及缺乏关键ABA信号蛋白激酶的ost1 - 2（开放气孔1）突变体中，flg22依赖的快速气孔关闭受到损害。相比之下，ABA蛋白磷酸酶突变体abi1 - 1（脱落酸不敏感1）的气孔仍然对flg22有反应。这些数据表明，flg22和ABA信号传导的初始步骤不同，但这些途径在OST1水平合并，并导致SLAC1和SLAH3阴离子通道的激活。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/85aa/4949714/af4b86658298/NPH-208-162-g001.jpg

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保卫细胞的SLAC1型阴离子通道介导鞭毛蛋白诱导的气孔关闭。

Guard cell SLAC1-type anion channels mediate flagellin-induced stomatal closure.

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