The Multifaceted Role of Jasmonic Acid in Plant Stress Mitigation: An Overview

Plants, being sessile, have developed complex signaling and response mechanisms to cope with biotic and abiotic stressors. Recent investigations have revealed the significant contribution of phytohormones in enabling plants to endure unfavorable conditions. Among these phytohormones, jasmonic acid (...

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Published in:Plants (Basel) 2023-11, Vol.12 (23), p.3982
Main Authors: Rehman, Muhammad, Saeed, Muhammad Sulaman, Fan, Xingming, Salam, Abdul, Munir, Raheel, Yasin, Muhammad Umair, Khan, Ali Raza, Muhammad, Sajid, Ali, Bahar, Ali, Imran, Khan, Jamshaid, Gan, Yinbo
Format: Article
Language:English
Subjects:
Abiotic stress
abiotic stresses
Biosynthesis
Botanical research
Cell division
Copper
Drought
Environmental aspects
Flowers & plants
Food safety
Food security
Fruits
Growth regulators
Heavy metals
Homeostasis
Hormones
Jasmonates
Jasmonic acid
Metabolism
Nickel
Physiological aspects
Physiology
Phytohormones
Plant growth
plant hormones
Plant stress
Plants
Roles
Salinity
Signal transduction
Stress (Physiology)
Stress response
Toxicity
Vernalization
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Summary:Plants, being sessile, have developed complex signaling and response mechanisms to cope with biotic and abiotic stressors. Recent investigations have revealed the significant contribution of phytohormones in enabling plants to endure unfavorable conditions. Among these phytohormones, jasmonic acid (JA) and its derivatives, collectively referred to as jasmonates (JAs), are of particular importance and are involved in diverse signal transduction pathways to regulate various physiological and molecular processes in plants, thus protecting plants from the lethal impacts of abiotic and biotic stressors. Jasmonic acid has emerged as a central player in plant defense against biotic stress and in alleviating multiple abiotic stressors in plants, such as drought, salinity, vernalization, and heavy metal exposure. Furthermore, as a growth regulator, JA operates in conjunction with other phytohormones through a complex signaling cascade to balance plant growth and development against stresses. Although studies have reported the intricate nature of JA as a biomolecular entity for the mitigation of abiotic stressors, their underlying mechanism and biosynthetic pathways remain poorly understood. Therefore, this review offers an overview of recent progress made in understanding the biosynthesis of JA, elucidates the complexities of its signal transduction pathways, and emphasizes its pivotal role in mitigating abiotic and biotic stressors. Moreover, we also discuss current issues and future research directions for JAs in plant stress responses.
ISSN:2223-7747
2223-7747
DOI:10.3390/plants12233982