甜菜胞囊线虫
拟南芥
生物
细胞生物学
效应器
Skp1型
线虫
泛素
泛素连接酶
生物化学
突变体
基因
生态学
作者
Ke Yao,Xin Zhang,Jinzhuo Jian,Yuese Ning,Chunhui Zhang,Jingwu Zheng,Du-Qing Wu,Lingan Kong,Wenkun Huang,Shiming Liu,Deliang Peng,Huan Peng
摘要
Summary Upon pathogen infection, plants trigger a reactive oxygen species (ROS) burst to activate immunity. Although some effectors secreted by plant–parasitic nematodes are known to suppress ROS‐mediated immunity, there are limited studies examining the regulation of respiratory burst oxidase homologs (RBOH)‐dependent ROS pathways by these nematodes. Using developmental expression analysis, in situ hybridization, and immunohistochemical tests, we found that both Hs28B03 and Hs8H07 were expressed and secreted during the early parasitism by Heterodera schachii . Transgenic Arabidopsis plants were used to assess the role of Hs28B03 and Hs8H07 in H. schachii parasitism. Yeast two‐hybrid was used to identify host targets in Arabidopsis . We identified Hs28B03 and Hs8H07 from H. schachtii , which play a crucial role in promoting nematode infection and parasitism, as well as inhibiting host immune responses. Hs28B03 and Hs8H07 harbor the SKP1/BTB/POZ domain and exhibit the capacity to mimic the host's SKP1 proteins, allowing them to regulate the ubiquitin pathway within the plant. Hs28B03 and Hs8H07 specifically target and degrade the host's AtSRC2 protein, inhibiting the Ca 2+ ‐dependent production of ROS mediated by RBOHF, enhancing Arabidopsis susceptibility to H. schachtii . In conclusion, nematodes can secrete effectors that mimic plant ubiquitination pathway components, suppressing ROS bursts via the RBOHF pathway, thereby facilitating parasitism.
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