脱落酸
类胡萝卜素
通气组织
生物合成
突变体
化学
铁质
开枪
植物
适应(眼睛)
生物
拟南芥
八氢番茄红素合酶
生物化学
植物激素
铁
维管束
细胞生物学
拟南芥
质体
氧气
作者
Jeevan Kumar Shrestha,Chih-Yu Lin,Jian You Wang,I-Chien Tang,C. H. HU,Munkhtsetseg Tsednee,Yasha Zhang,Muhammad Jamil,Lamis Berqdar,Ikram Blilou,Al-Babili Salim,Chang-Sheng Wang,Kuo-Chen Yeh
出处
期刊:Nature plants
[Nature Portfolio]
日期:2026-01-02
卷期号:12 (1): 179-190
标识
DOI:10.1038/s41477-025-02170-y
摘要
Rice roots develop aerenchyma, which transports oxygen from shoots to roots, facilitating adaptation to waterlogged conditions. This oxygen oxidizes ferrous ions into ferric compounds, forming iron plaque that mitigates iron toxicity. However, the molecular mechanisms linking aerenchyma and iron plaque formation remain poorly understood. Here we identified a rice mutant (AZ1302) defective in both aerenchyma and iron plaque formation, with the causal mutation mapped to the PHYTOENE SYNTHASE 2 (OsPSY2) gene. CRISPR-Cas9-induced psy2 mutants exhibited reduced levels of carotenoid-derived hormones, strigolactones and abscisic acid, in roots. In psy2 mutants, exogenous application of strigolactones rescued aerenchyma formation, while abscisic acid restored iron plaque deposition, providing evidence for distinct hormonal regulatory functions in the two processes. These findings revise the current understanding by dissociating the roles of aerenchyma and iron plaque formation, establishing a role for OsPSY2 in integrating hormonal signalling to drive root plasticity and offering new insights into plant adaptation under environmental stress.
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