生物
茉莉酸
转录组
基因沉默
基因
植物抗病性
Rust(编程语言)
遗传学
细胞生物学
RNA序列
基因表达调控
计算生物学
调节器
小RNA
RNA沉默
免疫系统
转录因子
植物对草食的防御
基因调控网络
病菌
RNA干扰
核糖核酸
抗性(生态学)
基因表达
小RNA
过敏反应
深度测序
胞间连丝
电池类型
植物病害
调节基因
转录调控
寄主(生物学)
作者
Qiongqiong Wang,Xinyan Sun,Yingchao Sun,Zeqiang Cheng,Zixiang Cheng,Shengbo Han,Ying Feng,Wenbo Yang,Huimin Li,Meichen Zhu,Xiaoling Wu,Jinghua Zhang,Jihua Tang,H. B. Li,Yanyong Cao,Canxing Duan,Yan Shi
标识
DOI:10.1002/advs.202512295
摘要
Southern corn rust (SCR), caused by Puccinia polysora Underw. (P. polysora), poses a significant threat to maize production, yet the cell-type-specific defense mechanisms remain insufficiently characterized. To address this, we integrated single-nucleus RNA sequencing (snRNA-seq) and spatial transcriptomic sequencing (stRNA-seq) to elucidate the cell-type-specific transcriptional dynamics in maize leaves during early infection with P. polysora. Analyses at 24 and 48 h post infection (hpi) revealed eight major cell types and highlighted key defense responses, which are primarily initiated in the mesophyll and epidermal cells 24 hpi. Notably, the cell-type-specific activation of RLPs/RLKs and jasmonic acid was observed. Functional defense modules were activated in specific cell types at 24 hpi, with pseudotime and cell-cell communication analyses further uncovering immune-related cellular dynamics. Importantly, multi-omics analysis identified core DEGs across critical cell types and time points. Functional validation through virus-induced gene silencing (VIGS) demonstrated that silencing the ZmXET1 gene significantly reduced disease severity and pathogen biomass, while silencing the positive regulator ZmRBG, increased susceptibility. This study provides a high-resolution spatiotemporal atlas of maize defense against P. polysora, identifying ZmXET1 as a key susceptibility factor and ZmRBG as a resistance component, thereby offering valuable targets for disease resistance breeding.
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