生物
转录组
根毛
多倍体
细胞生物学
盐(化学)
盐度
土壤盐分
基因表达谱
植物
基因
植物遗传学
RNA序列
代谢组
防御机制
非生物胁迫
基因表达
拟南芥
渗透压
农学
园艺
代谢组学
战斗或逃跑反应
重编程
蛋白质组
作者
Lin Du,Wenqiu Pan,Yali Song,Fuyan Liu,Yanzhe Jia,Cai Wei,Xinchun Li,Yong Hou,Xiaojun Nie,Hai‐Xi Sun,Jingmin Kang
摘要
Soil salinization threatens the yield and quality of wheat. Roots are critical for the salt stress response, yet their cell-type-specific mechanisms remain unclear. We conducted the first single-nucleus RNA sequencing analysis of wheat root tips from salt-sensitive (CS) and -tolerant (DK) varieties under salt stress, profiling 188 270 high-quality root cells. Seventeen cell types were identified and validated using reported marker genes and reference atlases. Cell-type-specific analyses found that root hair cells exhibited the strongest association with salt stress, with variety-specific transcriptional changes potentially contributing to DK's superior salt tolerance. Comparative gene profiling of root hair cells highlighted that CS prioritized rapid stress signaling and osmolyte accumulation, whereas DK emphasized metabolic reprogramming and cellular repair mechanisms. Pseudotime analysis pinpointed TaGSTU1-5B as a key candidate for wheat salt tolerance, and it was validated as improving salt tolerance by mediating ROS scavenging by overexpression. Additionally, subgenomic analysis revealed that salt stress enhanced asymmetric expression of the homeologs in polyploid wheat roots, and A- and D-dominant homologs were more related to salt response. This study reports the first single-cell atlas of salt-stressed wheat roots, uncovering cell-type-specific and variety-specific salt responses, providing novel insights into the molecular basis of salt adaptation and tolerance in wheat.
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