单细胞转录组学揭示了植物对真菌感染的细胞类型特异性反应。

Cell host & microbe Pub Date : 2023-10-11 Epub Date: 2023-09-22 DOI:10.1016/j.chom.2023.08.019
Bozeng Tang, Li Feng, Michelle T Hulin, Pingtao Ding, Wenbo Ma
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引用次数: 0

摘要

病原体感染是一个动态过程。在这里,我们使用单细胞转录组学来研究植物反应的异质性。通过在真菌病原体higginsianum感染期间生成包含95040个细胞的拟南芥叶图谱,我们揭示了细胞类型特异性基因表达,特别是血管系统细胞中细胞内免疫受体的富集。轨迹推断识别出与入侵真菌有不同相互作用的细胞。该分析揭示了脱落酸信号传导的转录重编程,该信号传导特异性发生在保卫细胞中,这与依赖于与真菌直接接触的气孔关闭一致。此外,我们研究了真菌感染部位细胞中参与硫代葡萄糖苷生物合成的基因的转录可塑性,强调了表皮表达的MYB122对抗病性的贡献。这项工作强调了植物对真菌病原体的空间动态、细胞类型特异性反应,并为深入研究植物与病原体的相互作用提供了宝贵的资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cell-type-specific responses to fungal infection in plants revealed by single-cell transcriptomics.

Cell-type-specific responses to fungal infection in plants revealed by single-cell transcriptomics.

Pathogen infection is a dynamic process. Here, we employ single-cell transcriptomics to investigate plant response heterogeneity. By generating an Arabidopsis thaliana leaf atlas encompassing 95,040 cells during infection by a fungal pathogen, Colletotrichum higginsianum, we unveil cell-type-specific gene expression, notably an enrichment of intracellular immune receptors in vasculature cells. Trajectory inference identifies cells that had different interactions with the invading fungus. This analysis divulges transcriptional reprogramming of abscisic acid signaling specifically occurring in guard cells, which is consistent with a stomatal closure dependent on direct contact with the fungus. Furthermore, we investigate the transcriptional plasticity of genes involved in glucosinolate biosynthesis in cells at the fungal infection sites, emphasizing the contribution of the epidermis-expressed MYB122 to disease resistance. This work underscores spatially dynamic, cell-type-specific plant responses to a fungal pathogen and provides a valuable resource that supports in-depth investigations of plant-pathogen interactions.

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