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保卫细胞质膜快速型和慢速型阴离子通道在气孔调节中的共同作用。

Combined action of guard cell plasma membrane rapid- and slow-type anion channels in stomatal regulation.

机构信息

Institute of Technology, University of Tartu, Tartu 50411, Estonia.

Organismal and Evolutionary Biology Research Programme, Viikki Plant Science Centre, Faculty of Biological and Environmental Sciences, University of Helsinki, Helsinki FI-00014, Finland.

出版信息

Plant Physiol. 2021 Dec 4;187(4):2126-2133. doi: 10.1093/plphys/kiab202.

DOI:10.1093/plphys/kiab202
PMID:34009364
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8644578/
Abstract

Initiation of stomatal closure by various stimuli requires activation of guard cell plasma membrane anion channels, which are defined as rapid (R)- and slow (S)-type. The single-gene loss-of-function mutants of these proteins are well characterized. However, the impact of suppressing both the S- and R-type channels has not been studied. Here, by generating and studying double and triple Arabidopsis thaliana mutants of SLOW ANION CHANNEL1 (SLAC1), SLAC1 HOMOLOG3 (SLAH3), and ALUMINUM-ACTIVATED MALATE TRANSPORTER 12/QUICK-ACTIVATING ANION CHANNEL 1 (QUAC1), we show that impairment of R- and S-type channels gradually increased whole-plant steady-state stomatal conductance. Ozone-induced cell death also increased gradually in higher-order mutants with the highest levels observed in the quac1 slac1 slah3 triple mutant. Strikingly, while single mutants retained stomatal responsiveness to abscisic acid, darkness, reduced air humidity, and elevated CO2, the double mutant lacking SLAC1 and QUAC1 was nearly insensitive to these stimuli, indicating the need for coordinated activation of both R- and S-type anion channels in stomatal closure.

摘要

各种刺激引发气孔关闭都需要激活保卫细胞质膜阴离子通道,这些通道被定义为快速(R)型和慢速(S)型。这些蛋白的单基因突变体失活突变体得到了很好的表征。然而,抑制 S 型和 R 型通道的综合作用还没有被研究过。在这里,通过生成和研究 SLOW ANION CHANNEL1(SLAC1)、SLAC1 HOMOLOG3(SLAH3)和 ALUMINUM-ACTIVATED MALATE TRANSPORTER 12/QUICK-ACTIVATING ANION CHANNEL 1(QUAC1)的拟南芥双突变体和三突变体,我们表明 R 型和 S 型通道的损伤逐渐增加了整株植物的稳态气孔导度。臭氧诱导的细胞死亡也在更高阶突变体中逐渐增加,在 quac1 slac1 slah3 三重突变体中观察到最高水平。引人注目的是,虽然单突变体仍然保留了对脱落酸、黑暗、降低空气湿度和升高 CO2 的气孔响应性,但缺乏 SLAC1 和 QUAC1 的双突变体几乎对这些刺激不敏感,表明在气孔关闭中需要协调激活 R 型和 S 型阴离子通道。

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