GCN2 is activated by methyl jasmonate through GCN1 and reactive oxygen species in Arabidopsis thaliana
Daniel Rincon Diaz, Morgan E. Wynn, Emmanuel Asiedu, Teressa K. Akuoko, Ansul Lokdarshi

TL;DR
This study explores how the protein GCN2 in Arabidopsis is activated by methyl jasmonate through GCN1 and reactive oxygen species, affecting plant stress responses.
Contribution
The study reveals that GCN2 activation by methyl jasmonate in Arabidopsis depends on GCN1 and ROS, offering new insights into plant stress mitigation mechanisms.
Findings
eIF2α phosphorylation under MeJA stress requires light and is suppressed by antioxidants and photosynthetic inhibitors.
GCN1 is essential for GCN2 activation, as gcn1 mutants show reduced P-eIF2α in response to MeJA.
gcn2 mutants maintain wild-type-like protein synthesis rates under MeJA stress despite impaired signaling.
Abstract
Plant growth and productivity rely on rapid energy management strategies to adapt dynamic environments. Previous work in Arabidopsis thaliana identified a fast-regulatory switch linking cytosolic translation and reactive oxygen species (ROS) signaling, where the protein kinase general control of nonderepressible (GCN)2 is rapidly activated in response to ROS under numerous stresses and phosphorylates the eukaryotic translation initiation factor (eIF)2α as a potential stress mitigation mechanism. Here, we test the hypothesis that the Arabidopsis GCN2-eIF2α’s responses towards the plant defense hormone methyl jasmonate (MeJA) are regulated by light, ROS, and the conserved GCN2 activator protein, general control of non-derepressible 1 (GCN1). We show that eIF2α phosphorylation (P-eIF2α) under MeJA stress requires light and is suppressed by antioxidants and photosynthetic inhibitors. GCN1…
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Taxonomy
TopicsRNA regulation and disease · Endoplasmic Reticulum Stress and Disease · Polyamine Metabolism and Applications
