BIN2 negatively regulates plant defence against Verticillium dahliae in Arabidopsis and cotton
文献类型: 外文期刊
第一作者: Song, Yun
作者: Song, Yun;Zhai, Yaohua;Yang, Zuoren;Li, Fuguang;Ren, Maozhi;Yang, Zhaoen;Ge, Xiaoyang;Zhang, Chaojun;Li, Linxuan
作者机构:
关键词: BIN2; JAZ; Verticillium dahlia; Arabidopsis; cotton
期刊名称:PLANT BIOTECHNOLOGY JOURNAL ( 影响因子:9.803; 五年影响因子:9.555 )
ISSN: 1467-7644
年卷期: 2021 年 19 卷 10 期
页码:
收录情况: SCI
摘要: Verticillium wilt is caused by the soil-borne vascular pathogen Verticillium dahliae, and affects a wide range of economically important crops, including upland cotton (Gossypium hirsutum). Previous studies showed that expression levels of BIN2 were significantly down-regulated during infestation with V. dahliae. However, the underlying molecular mechanism of BIN2 in plant regulation against V. dahliae remains enigmatic. Here, we characterized a protein kinase GhBIN2 from Gossypium hirsutum, and identified GhBIN2 as a negative regulator of resistance to V. dahliae. The Verticillium wilt resistance of Arabidopsis and cotton were significantly enhanced when BIN2 was knocked down. Constitutive expression of BIN2 attenuated plant resistance to V. dahliae. We found that BIN2 regulated plant endogenous JA content and influenced the expression of JA-responsive marker genes. Further analysis revealed that BIN2 interacted with and phosphorylated JAZ family proteins, key repressors of the JA signalling pathway in both Arabidopsis and cotton. Spectrometric analysis and site-directed mutagenesis showed that BIN2 phosphorylated AtJAZ1 at T196, resulting in the degradation of JAZ proteins. Collectively, these results show that BIN2 interacts with JAZ proteins and plays a negative role in plant resistance to V. dahliae. Thus, BIN2 may be a potential target gene for genetic engineering against Verticillium wilt in crops.
分类号:
- 相关文献
作者其他论文 更多>>
-
Exploring Regulatory Roles of Plant Thylakoid-Bound Proteins Involved in Abiotic Stress Responses
作者:Billah, Masum;Hu, Wei;Li, Fuguang;Yang, Zhaoen;Billah, Masum;Hu, Wei;Li, Fuguang;Yang, Zhaoen;Aktar, Shirin;Sikder, Ripon Kumar;Ahammed, Golam Jalal
关键词:Thylakoid; Lumen; Genes; ROS; Photoprotection; Abiotic stress
-
Promotion of apoplastic oxidative burst by artificially selected GhCBSX3A enhances Verticillium dahliae resistance in upland cotton
作者:Zhang, Yihao;Yuan, Yuan;Zhang, Yaning;Gao, Chenxu;Ma, Meng;Li, Fuguang;Yang, Zhaoen;Zhang, Yihao;Yuan, Yuan;Xi, Hongfang;Ma, Meng;Huang, Qian;Li, Fuguang;Yang, Zhaoen;Zhang, Yihao;Li, Fuguang;Yang, Zhaoen;Zhang, Yihao;Zhang, Yihao
关键词:upland cotton; Verticillium dahliae; reactive oxygen species; artificial selection
-
Cotton stalk valorization towards bio-based materials, chemicals, and biofuels: A review
作者:Cai, Chenggu;Wang, Zhanbiao;Ma, Lei;Li, Fuguang;Cai, Chenggu;Wang, Zhanbiao;Ma, Lei;Li, Fuguang;Xu, Zhaoxian;Yu, Jianming
关键词:Cotton stalk valorization; Bio-based materials; Bio-based chemicals; Biofuels; Techno-economic assessment; Sustainable development of cotton industry
-
A cotton mitochondrial alternative electron transporter, GhD2HGDH, induces early flowering by modulating GA and photoperiodic pathways
作者:Billah, Masum;Liu, Renju;Qanmber, Ghulam;Lan, Yang;Yan, Qing-di;Li, Fuguang;Yang, Zhaoen;Wei, Hu;Qanmber, Ghulam;Da, Yan;Li, Fuguang;Yang, Zhaoen
关键词:
-
Ribosomal S6 kinases 2 mediates potato resistance to late blight, through WRKY59 transcription factor
作者:Wei, Yunmin;Tan, Xue;Tian, Tingting;Luo, Xiumei;Ren, Maozhi;Ren, Maozhi
关键词:Potato late blight; Ribosomal protein S6 kinase 2; Transcription factor WRKY59
-
GhEXL3 participates in brassinosteroids regulation of fiber elongation in Gossypium hirsutum
作者:Zhang, Changsheng;Liu, Zhao;Shu, Sheng;Li, Fuguang;Qanmber, Ghulam;Yang, Zuoren;Zhang, Changsheng;Liu, Zhao;Li, Xinyang;Li, Yujun;Liu, Le;Li, Fuguang;Qanmber, Ghulam;Yang, Zuoren;Zhang, Changsheng;Liu, Zhao;Yang, Zuoren;Liu, Li;Wang, Xuwen
关键词:cotton; fiber; brassinosteroids; GhEXL3; GhBES1.4; cell elongation
-
Microalgae: towards human health from urban areas to space missions
作者:Xie, Xiulan;Ren, Maozhi;Xie, Xiulan;Ren, Maozhi;Jaleel, Abdul;Zhan, Jiasui
关键词:interstellar migration; microalgae; natural products; synthetic biology; extreme space environment
