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Jasmonate activates a SlJAZ2/3‐SlMYC3‐like module regulating K<sup>+</sup> uptake in tomato response to low K<sup>+</sup> stress

Xi Wang, Junfeng Luo, Q. Wang, Qiongqiong Zhang, Tianying Zhao, Yufeng Liu, Tianlai Li, Xin Liu, Jing Jiang

2025Journal of Integrative Plant Biology9 citationsDOIOpen Access PDF

Abstract

ABSTRACT Potassium (K + ), an essential macronutrient, strongly influences myriad fundamental processes, while its deficiency inhibits plant growth. Jasmonic acid (JA) regulates plant growth; however, its role in plant growth inhibition under K + deficiency remains nebulous. Herein, we determined that JA significantly inhibits low K + tolerance and K + uptake in tomato. Methyl jasmonate treatment induced the expression of SlMYC3‐like under low K + stress, which bound the promoters of the genes that encode KT/KUP/HAK‐type transporter ( SlHAK5 ) and voltage‐gated K + channel ( SlLKT1 ) and inhibited their expression. Knockdown of SlMYC3‐like enhanced low K + stress tolerance and decreased JA responses, while its overexpression led to low K + stress sensitivity and promoted jasmonate responses in tomato. In addition, jasmonate ZIM‐domain transcriptional repressor 2/3 (SlJAZ2/3) interacted with SlMYC3‐like; this interaction decreased DNA‐binding activity of SlMYC3‐like. SlMYC3‐like promoted SlJAZ2 / 3 expression, forming a negative feedback circuit in JA signaling. Silencing SlJAZ2/3 increased plant susceptibility to low K + stress. Our findings demonstrate the involvement of the JA–SlJAZ2/3–SlMYC3‐like module in K + uptake and plant growth in tomato under low K + stress, providing novel insights into the regulation of plant growth and K + uptake.

Topics & Concepts

JasmonateJasmonic acidRepressorGene knockdownMethyl jasmonateGene silencingPromoterCell biologyChemistryArabidopsisPlant growthBiologyGene expressionBiochemistryGeneBotanyMutantPlant Stress Responses and TolerancePlant-Microbe Interactions and ImmunityPlant Molecular Biology Research