Ethylene participates in strigolactone-triggered stomatal closure via Gα protein-activited hydrogen peroxide and hydrogen sulfide synthesis in Arabidopsis
Yinli Ma, Zhenyu Zhao, Yuwei Song, Sida Chai, Hongyu Zhao, Shuangshuang Liang

TL;DR
This study shows how strigolactone causes stomatal closure in Arabidopsis by involving ethylene, Gα proteins, and the production of hydrogen peroxide and hydrogen sulfide.
Contribution
The paper reveals a novel signaling pathway where ethylene and Gα proteins mediate strigolactone-induced stomatal closure through H2O2 and H2S synthesis.
Findings
GR24-induced stomatal closure requires ethylene biosynthesis and Gα activation.
Ethylene promotes hydrogen peroxide and hydrogen sulfide synthesis via AtrbohD/F and AtL-/D-CDes.
Gα activation acts upstream of H2O2 and H2S synthesis in this signaling cascade.
Abstract
The signaling cascade of strigolactone (SL)-regulated stomatal closure in Arabidopsis thaliana was investigated using pharmacological assays, fluorescence microscopy, spectrophotometry, gas chromatography, RT-PCR, and qRT-PCR. In wild-type plants, GR24 (a synthetic strigolactone analog)-induced stomatal closure was significantly inhibited by ethylene biosynthesis/perception inhibitors or Gα inhibitor pertussis toxin (PTX). GR24 obviously promoted closure in eto1-1, cGα1 and wGα1 mutants, but failed to do so in mutants etr1-1, etr1-3, gpa1–1 and gpa1-2. GR24 also upregulated 1-aminocyclopropane-1-carboxylic acid (ACC) synthase (ACS) gene ACS and heterotrimeric G-protein α subunit 1 gene GPA1 transcript levels, showing that both ethylene synthesis and Gα activation were required for SL-induced stomatal closure. Ethylene biosynthesis/perception inhibitors significantly suppressed…
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Taxonomy
TopicsPlant Parasitism and Resistance · Insect-Plant Interactions and Control · Tree Root and Stability Studies
