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Structure and activity of SLAC1 channels for stomatal signaling in leaves.


ABSTRACT: Stomata in leaves regulate gas exchange between the plant and its atmosphere. Various environmental stimuli elicit abscisic acid (ABA); ABA leads to phosphoactivation of slow anion channel 1 (SLAC1); SLAC1 activity reduces turgor pressure in aperture-defining guard cells; and stomatal closure ensues. We used electrophysiology for functional characterizations of Arabidopsis thaliana SLAC1 (AtSLAC1) and cryoelectron microscopy (cryo-EM) for structural analysis of Brachypodium distachyon SLAC1 (BdSLAC1), at 2.97-Å resolution. We identified 14 phosphorylation sites in AtSLAC1 and showed nearly 330-fold channel-activity enhancement with 4 to 6 of these phosphorylated. Seven SLAC1-conserved arginines are poised in BdSLAC1 for regulatory interaction with the N-terminal extension. This BdSLAC1 structure has its pores closed, in a basal state, spring loaded by phenylalanyl residues in high-energy conformations. SLAC1 phosphorylation fine-tunes an equilibrium between basal and activated SLAC1 trimers, thereby controlling the degree of stomatal opening.

SUBMITTER: Deng YN 

PROVIDER: S-EPMC8106318 | biostudies-literature | 2021 May

REPOSITORIES: biostudies-literature

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Structure and activity of SLAC1 channels for stomatal signaling in leaves.

Deng Ya-Nan YN   Kashtoh Hamdy H   Wang Quan Q   Zhen Guang-Xiao GX   Li Qi-Yu QY   Tang Ling-Hui LH   Gao Hai-Long HL   Zhang Chun-Rui CR   Qin Li L   Su Min M   Li Fei F   Huang Xia-He XH   Wang Ying-Chun YC   Xie Qi Q   Clarke Oliver B OB   Hendrickson Wayne A WA   Chen Yu-Hang YH  

Proceedings of the National Academy of Sciences of the United States of America 20210501 18


Stomata in leaves regulate gas exchange between the plant and its atmosphere. Various environmental stimuli elicit abscisic acid (ABA); ABA leads to phosphoactivation of slow anion channel 1 (SLAC1); SLAC1 activity reduces turgor pressure in aperture-defining guard cells; and stomatal closure ensues. We used electrophysiology for functional characterizations of <i>Arabidopsis thaliana</i> SLAC1 (<i>At</i>SLAC1) and cryoelectron microscopy (cryo-EM) for structural analysis of <i>Brachypodium dist  ...[more]

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