A fungal effector targets a heat shock-dynamin protein complex to modulate mitochondrial dynamics and reduce plant immunity
文献类型: 外文期刊
第一作者: Xu, Guojuan
作者: Xu, Guojuan;Zhong, Xionghui;Shi, Yanlong;Liu, Zhuo;Jiang, Nan;Liu, Jing;Ding, Bo;Li, Zhiqiang;Kang, Houxiang;Ning, Yuese;Liu, Wende;Wang, Xuli;Xu, Guojuan;Guo, Zejian;Wang, Guo-Liang;Ding, Bo
作者机构:
期刊名称:SCIENCE ADVANCES ( 影响因子:14.136; 五年影响因子:16.446 )
ISSN: 2375-2548
年卷期: 2020 年 6 卷 48 期
页码:
收录情况: SCI
摘要: Mitochondria are essential for animal and plant immunity. Here, we report that the effector MoCDIP4 of the fungal pathogen Magnaporthe oryzae targets the mitochondria-associated OsDjA9-OsDRP1E protein complex to reduce rice immunity. The DnaJ protein OsDjA9 interacts with the dynamin-related protein OsDRP1E and promotes the degradation of OsDRP1E, which functions in mitochondria! fission. By contrast, MoCDIP4 binds OsDjA9 to compete with OsDRP1E, resulting in OsDRP1E accumulation. Knockout of OsDjA9 or overexpression of OsDRP1E or MoCDIP4 in transgenic rice results in shortened mitochondria and enhanced susceptibility to M. oryzae. Overexpression of OsDjA9 or knockout of OsDRP1E in transgenic rice, in contrast, leads to elongated mitochondria and enhanced resistance to M. oryzae. Our study therefore reveals a previously unidentified pathogen-infection strategy in which the pathogen delivers an effector into plant cells to target an HSP40-DRP complex; the targeting leads to the perturbation of mitochondria! dynamics, thereby inhibiting mitochondria-mediated plant immunity.
分类号:
- 相关文献
作者其他论文 更多>>
-
Organic Farming Is an Important Way to Achieve Low Accumulation of Heavy Metals in Soil
作者:Shen, Zhijie;Zhang, Mengmeng;Liu, Fenwu;Du, Lianfeng;Shen, Zhijie;Liu, Jing;Zhang, Mengmeng;Ma, Maoting;Kang, Lingyun;Du, Lianfeng
关键词:organic agriculture; heavy metals; potential ecological risk index; random forest model
-
The impact of climate policy uncertainty on urban climate risk: Evidence from 274 cities in China
作者:Zhang, Hanying;Liu, Jing;Guo, Qing;Zhang, Xuan;Hu, Xiangdong
关键词:Climate policy uncertainty; Urban climate risk; Industrial structure; Household deposit balance; Insurance cost
-
Cyprinid herpesvirus 2 ORF41 Protein Degrades Pyruvate Dehydrogenase (PDH)-E1β to Promote Viral Replication in Gibel Carp Brain (GiCB) Cells
作者:Xue, Mingyang;Xu, Chen;Huang, Zhenyu;Meng, Yan;Jiang, Nan;Fan, Yuding;Zhou, Yong;Xue, Mingyang
关键词:
Cyprinid herpesvirus 2 ; ORF41; pyruvate dehydrogenase -
Genome-wide CRISPR screens identify CLC-2 as a drug target for anti-herpesvirus therapy: tackling herpesvirus drug resistance
作者:Yang, Fayu;Wei, Nan;Cai, Shuo;Liu, Jing;Zhang, Hao;Shang, Lu;Wang, Mi;Liu, Yingchun;Zhang, Lifang;Fei, Chenzhong;Tong, Wu;Liu, Changlong;Tong, Guangzhi;Gu, Feng;Yang, Fayu;Wei, Nan;Cai, Shuo;Liu, Jing;Zhang, Hao;Shang, Lu;Wang, Mi;Liu, Yingchun;Zhang, Lifang;Fei, Chenzhong;Gu, Feng;Yang, Fayu;Lan, Qingping;Kuang, Ersheng;Zheng, Bo
关键词:herpesviruses; CRISPR; host-directed therapy; CLC-2; DIDS
-
Quaternized and boronic acid dual-functional CoAg nanozymes for label-free, stable, sensitive, and rapid quantitation detection of the bacterial total concentration
作者:Deng, Bin;Li, Shao-Bo;Chen, Jing-Wen;Liu, Jing;Su, Meng-Xiang;Deng, Bin;Li, Shao-Bo;Chen, Jing-Wen;Zhou, Zhong-Kai;Li, Li;Bai, Zong-Chun;Liu, Fang;Wang, Zai-Tian;Zhou, Ji
关键词:Bacterial detection; Dual-functional nanozymes; Long persistent chemiluminescence
-
Antiviral activity of arctigenin against Chinese rice-field eel rhabdovirus in Monopterus albus
作者:Liu, Yisha;Xue, Mingyang;Xu, Chen;Zhou, Yong;Jiang, Nan;Meng, Yan;Li, Yiqun;Huang, Zhenyu;Liu, Wenzhi;Li, Zhong;Fan, Yuding;Liu, Yisha;Zhong, Qiwang
关键词:Arctigenin; Rhabdovirus; Monopterus albus; Antiviral
-
OsHARBI1-1 enhances cadmium tolerance in yeast through YAP1 mediated modulation of cell wall integrity genes and catalase genes
作者:Shi, Yang;Jiang, Nan;Jiang, Wenjun;Jiao, Yuan;Zhou, Yingxu;Wu, Longying;Huang, Jin;Shi, Yang;Chen, Ji;Wu, Lijuan;Huang, Yanyan;Li, Deqiang;Kumar, Vinod;Hu, Binhua;Huang, Jin
关键词:antioxidant; cadmium tolerance; cell wall;
HARBI1 ;Saccharomyces cerevisiae ;YAP1
