Regulatory networks and molecular mechanisms underlying salt stress tolerance in rice
Wuyun Fang, Ali Raza, Qian Zhu, Qiming Wang, Qun Ren, Mengyang Liu, Shimei Wang, Muhammad Ahmad Hassan

TL;DR
This paper reviews the current understanding of how rice responds to salt stress and highlights gaps in knowledge that hinder breeding salt-tolerant rice varieties.
Contribution
The paper provides a comprehensive review of molecular mechanisms and regulatory networks involved in rice salt stress tolerance, identifying key areas needing further research.
Findings
Rice uses receptor-like kinases and Ca2+-dependent signaling to sense salinity, but initial response mechanisms remain unclear.
ROS-induced antioxidant systems like AsA-GSH are activated, but their spatial and organelle-specific regulation is not well understood.
Proteomic studies reveal protein reorganization under salt stress, but most identified proteins lack functional validation.
Abstract
Salinity and alkaline stress severely restrict rice productivity by disrupting ionic balance, generating oxidative damage, and impairing growth across developmental stages. Despite the significant advances in the salt tolerance knowledge, rice is very sensitive in contrast to other cereals, which demonstrates gaps in mechanistic understanding and breeding efficiency. This review incorporates the progress in the salt perception, signaling, and stress adaptation, and introduces limitations that slow down the practical improvement. Rice senses salinity using receptor-like kinases and Ca2+-dependent signaling pathway but the initial stages of the response and down-stream phosphorylation cascades have not been characterized well. The reactive oxygen species (ROS) triggered by salinity activate antioxidant mechanisms like AsA-GSH, but it is still not clear how they are spatially and…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsPlant Stress Responses and Tolerance · Photosynthetic Processes and Mechanisms · Plant responses to water stress
