效应器
发病机制
生物
基因
麦格纳波特
附着胞
病菌
微生物学
细胞生物学
基因表达
遗传学
格里斯麦格纳波特
水稻
免疫学
作者
Ziwei Zhu,Jun Xiong,Hao Shi,Yuchen Liu,Junjie Yin,Kaiwei He,Tianyu Zhou,Liting Xu,Xiaobo Zhu,Xiang Lu,Yongyan Tang,Li Song,Qingqing Hou,Qing Xiong,Long Wang,Daihua Ye,Tuo Qi,Lijuan Zou,Guo‐Bang Li,Changhui Sun
标识
DOI:10.1038/s41467-023-44197-9
摘要
Fungal pathogens typically use secreted effector proteins to suppress host immune activators to facilitate invasion. However, there is rarely evidence supporting the idea that fungal secretory proteins contribute to pathogenesis by transactivating host genes that suppress defense. We previously found that pathogen Magnaporthe oryzae induces rice Bsr-d1 to facilitate infection and hypothesized that a fungal effector mediates this induction. Here, we report that MoSPAB1 secreted by M. oryzae directly binds to the Bsr-d1 promoter to induce its expression, facilitating pathogenesis. Amino acids 103-123 of MoSPAB1 are required for its binding to the Bsr-d1 promoter. Both MoSPAB1 and rice MYBS1 compete for binding to the Bsr-d1 promoter to regulate Bsr-d1 expression. Furthermore, MoSPAB1 homologues are highly conserved among fungi. In particular, Colletotrichum fructicola CfSPAB1 and Colletotrichum sublineola CsSPAB1 activate kiwifruit AcBsr-d1 and sorghum SbBsr-d1 respectively, to facilitate pathogenesis. Taken together, our findings reveal a conserved module that may be widely utilized by fungi to enhance pathogenesis.
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