细胞生物学
脱落
转录因子
细胞壁
木聚糖
次生细胞壁
质壁分离
生物
基因
拟南芥
化学
半纤维素
细胞
植物
细胞命运测定
转录组
抄写(语言学)
基因表达调控
膨胀压力
基因表达
生物化学
细胞分化
亚细胞定位
基因敲除
核糖核酸
原丝体
作者
Dandan Yue,Yanlong Li,Bei Han,Weinan Sun,Bing Zhang,Xi Zhang,Xuyang Hao,Xi Zhang,Li Liu,Xiyan Yang
摘要
Chemical defoliation is essential for mechanized harvesting of cotton (Gossypium hirsutum L.), yet the molecular mechanisms governing abscission zone (AZ) cell fate and cell-wall remodeling remain unresolved. Here, single-nucleus RNA sequencing (snRNA-seq) coupled with Monocle2 trajectory analysis delineates a pseudotemporal transition of protective-layer cells from C16_0 to C16_1, which coincides with AZ maturation. We identify the cell-wall glycoprotein GhSKS6 as a central hub in this differentiation process. CRISPR/Cas9-mediated knockout of GhSKS6 impairs AZ fracture-layer formation, delays leaf abscission, and downregulates genes associated with hemicellulose and xyloglucan remodeling. Subcellular localization and plasmolysis assays confirm the residency of GhSKS6 in the cell wall, while its overexpression in protoplasts accelerates cell wall regeneration. Moreover, the NAC transcription factor GhNAC47 directly binds to the GhSKS6 promoter to activate its expression, thereby modulating cotton leaf abscission. Our findings reveal a regulatory module involving GhNAC47 and GhSKS6 that coordinates protective-layer formation and cell-wall remodeling, offering precise molecular targets for breeding machine-harvested cotton cultivars.
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