内吞作用
拟南芥
生长素
网格蛋白
细胞生物学
调节器
生物
侧根
磷脂酰肌醇
功能(生物学)
化学
基因表达调控
拟南芥
信号
信号转导
细胞膜
过程(计算)
生物物理学
生物化学
作者
Jiaqi Ma,Jianxin Shou,Danlu Han,Mei Xu,Yuting Yao,Liufan Wang,Yuling Ran,Haijun Wu,Chengwei Yang,Jun Wang,Sebastian Y. Bednarek,Xu Yan,Chao Wang
标识
DOI:10.1093/plphys/kiaf459
摘要
Lateral root (LR) growth enables plants to explore regions of the soil, anchor themselves, and optimize nutrient and water uptake. LR development is characterized by the establishment of an auxin maximum at the LRP; however, the regulatory mechanisms underlying this process remain poorly understood. In Arabidopsis (Arabidopsis thaliana), FORMATION OF APLOID AND BINUCLEATE CELLS1 (FAB1) encodes a lipid kinase responsible for biosynthesizing phosphatidylinositol 3,5-bisphosphate. Our findings show that auxin induces FAB1 expression through AUXIN RESPONSE FACTOR7/19 (ARF7/19). In turn, FAB1 modulates the auxin maximum at the LRP tip by regulating clathrin-mediated endocytosis of the PIN-FORMED (PIN) auxin efflux carriers, forming a previously uncharacterized auxin-induced feedback loop during LR development. Loss of FAB1 function markedly increases LR number, while FAB1 overexpression suppresses LR formation. Diminished FAB1 activity leads to less clathrin accumulation at the plasma membrane (PM), limited endocytosis, and greater PIN3 retention at the LRP PM, thereby enhancing auxin flow toward LRP tips and promoting emergence. These results identify FAB1 as a negative regulator of LR development that fine-tunes auxin transport to facilitate organ emergence.
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