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aBIOTECH | 最新上线『植物-病原互作』主题精选(一)
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aBIOTECH | 最新上线『植物-病原互作』主题精选(一)
本期精选 aBIOTECH 最新上线的『植物-病原互作』相关文章,点击文章题目可以下载全文,欢迎学者们阅读、转发。
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Pepino mosaic virus antagonizes plant m6A modification by promoting the autophagic degradation of the m6A writer HAKAI
aBIOTECH | 李方方/周雪平团队揭示m6A修饰介导的抗病毒与细胞自噬途径的互作
Hao He, Linhao Ge, Zhaolei Li, Xueping Zhou & Fangfang Li
Fig. 1 SlHAKAI negatively regulates tomato resistance to PepMV
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aBIOTECH | 郭惠珊团队利用MIGS技术构建玉米茎腐病防控体系
Ting Chen, Wen Tian, Qing Shuai, Han-Guang Wen, Hui-Shan Guo & Jian-Hua Zhao
Fig. 1 MIGS for protection of maize against F. graminearum by silencing the FgPMT2 gene
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Soyasaponin β-glucosidase confers soybean resistance to pod borer (Leguminivora glycinivorella)
aBIOTECH | 王国栋/孟凡立团队合作揭示大豆皂苷水解酶GmSSBG1调控食心虫抗性新机制
Chengyong Feng, Xindan Xu, Jia Yuan, Mingyu Yang, Fanli Meng & Guodong Wang
Fig. 4 Characterization of GmSSBG1 transgenic plants
4
DNA methylation-dependent epigenetic regulation of Verticillium dahliae virulence in plants
aBIOTECH | 中国科学院分子植物卓越中心段成国团队揭示DNA甲基化介导的棉花黄萎病致病新机制
Yun-Ya Chen, Chen Zhu, Jian-Hua Zhao, Ting Liu, Feng Gao, Ying-Chao Zhang & Cheng-Guo Duan
Fig. 1 VdRid and VdDnmt5 are the major DNA methyltransferase of V. dahliaeV592
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aBIOTECH | 刘羽飞课题组联合王蒙岑课题组综述利用先进技术在不同观测尺度上预测水稻病害的现状与展望
Ruyue Li, Sishi Chen, Haruna Matsumoto, Mostafa Gouda, Yusufjon Gafforov, Mengcen Wang & Yufei Liu
Fig. 2 Major rice disease detection methods by advanced technology at different scales (Created with BioRender.com)
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aBIOTECH | 陶增团队揭示病原真菌组蛋白修饰H3K36两个甲基转移酶介导不同转录活性的分子机制
Mengting Xu, Ziyue Sun, Huanbin Shi, Jiangnan Yue, Xiaohui Xiong, Zhongling Wu, Yanjun Kou & Zeng Tao
Fig. 1 Ash1 and Set2 are required for fungal growth, conidiation and pathogenicity in M. oryzae
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aBIOTECH | 黄昌军团队等编辑多个eIF4E感病基因创制持久广谱抗病毒烟草
Yong Liu, Shuo Wang, Danyang Zhao, Chenglu Zhao, Haiqin Yu, Jianmin Zeng, Zhijun Tong, Cheng Yuan, Zhenghe Li & Changjun Huang
Fig. 2 Identification of VPg mutations required for breaking the va-mediated PVY resistance
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Atypical RXLR effectors are involved in Phytophthora cactorum pathogenesis
aBIOTECH | 刘振盼团队对恶疫霉菌非典型RXLR效应蛋白进行鉴定及功能验证
Zeyang Zheng, Juanjuan Liu, Wenzhong You, Jun Sun, Kehan Wang, Xuemei Zhang, Xinyu Yan & Zhenpan Liu
Fig. 1 Identification of PcaRXLRs
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aBIOTECH | 揭秘病原菌的生存之道:大丽轮枝菌的乙酰辅酶A结合蛋白VdAcb1在碳饥饿响应和毒力中发挥关键作用
Jing Zhuang, Ya-Duo Zhang, Wei-Xia Sun, Juan Zong, Jun-Jiao Li, Xiao-Feng Dai, Steven J. Klosterman, Jie-Yin Chen, Li Tian, Krishna V. Subbarao & Dan-Dan Zhang
Fig. 7 Proposed model of VdAcb1 function during Verticillium dahliae-host interactions
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A complete MAP kinase cascade controls hyphopodium formation and virulence of Verticillium dahliae
aBIOTECH | 张杰课题组揭示病原真菌侵染结构形成调控的完整MAPK信号途径
Ziqin Ye, Jun Qin, Yu Wang, Jinghan Zhang, Xiaoyun Wu, Xiangguo Li, Lifan Sun & Jie Zhang
Fig. 4 VdSte7 phosphorylates VdKss1 and regulates hyphopodium formation
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Zig, Zag, and ’Zyme: leveraging structural biology to engineer disease resistance
aBIOTECH评述 | 马文勃/Alexander J. McClelland-结构生物学助力植物抗病性的改造
Alexander J. McClelland & Wenbo Ma
Fig. 1 PvPGIP2 alters FpPG enzymatic activity to induce plant defense
12
The Phantom Menace: latest findings on effector biology in the rice blast fungus
aBIOTECH | Jessie Fernandez团队综述稻瘟病菌效应因子研究进展
Jessie Fernandez
Fig. 1 M. oryzae cytoplasmic effectors involved in modulating plant immune responses
13
Tomato leaf curl New Delhi virus: an emerging plant begomovirus threatening cucurbit production
aBIOTECH | 杨景华教授综述新德里番茄曲叶病毒在瓜类作物中的危害
Lingmin Cai, Yuzhen Mei, Ruyi Ye, Yun Deng, Xuejun Zhang, Zhongyuan Hu, Xueping Zhou, Mingfang Zhang & Jinghua Yang
Fig. 3 Phylogenetic trees of the DNA-A component of ToLCNDV China isolates with other selected ToLCNDV identified from different crops
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TIR enzymatic functions: signaling molecules and receptor mechanisms
aBIOTECH | 万里课题组综述TIR酶活介导免疫的信号分子和受体机制
Li Wan
Fig. 1 Current understandings of TIR signaling mechanisms in bacteria, plants, and animals
https://blog.sciencenet.cn/blog-3458049-1507961.html
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