脱落酸
磷酸化
内生
突变体
信号转导
细胞生物学
基因敲除
化学
赤霉素
植物激素
氧化脂质
生物
细胞信号
生物化学
基因
赤霉素
转录因子
拟南芥
激素
基因表达
油菜素内酯
基因表达调控
作者
Enshuang Wang,Shenglin Jing,Liepeng Dong,X. Sun,Tengfei Liu,Shengxuan Liu,Jun Qin,Shijie He,Shuangshuang He,Peng Jiang,X. Ye,Xingkui Cai,Botao Song
摘要
Summary The plant hormone abscisic acid (ABA) is historically recognized as a tuberization stimulator, with exogenous application significantly enhancing potato tuber formation. However, the physiological significance of endogenous ABA signaling in tuberization and its underlying molecular mechanisms remain poorly understood. Here, by using ABA‐insensitive hypermorphic StHAB1 G276D ‐overexpression mutant and StHAB1 knockdown mutant, we demonstrate that ABA signaling is essential for normal tuber formation in potato. Blocking of ABA signaling by StHAB1 G276D ‐overexpression reduces underground stolon sensitivity to leaf‐derived tuber‐inducing signals. Notably, StHAB1 directly interacts with the tuber‐forming signal StSP6A and reduces its phosphorylation level. Transcriptomic and quantitative phosphoproteomic analyses proved that StHAB1 G276D modulates gene expression and phosphorylation of key players in the tuberization pathway and gibberellic acid signaling. Collectively, our findings uncover a critical role of endogenous ABA signaling in potato tuber formation and identify a mechanism linking the conserved FLOWERING LOCUS T and ABA pathways, offering molecular insights for accelerating potato tuberization by modulating hormone signaling.
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