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aBIOTECH | 2022-2024年『植物-病原互作』主题精选(一)

已有 537 次阅读 2024-7-17 09:59 |个人分类:论文|系统分类:论文交流

aBIOTECH | 2022-2024年『植物-病原互作』主题精选(一)

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本期精选 aBIOTECH 2022-2024年发表的『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。

1

Pepino mosaic virus antagonizes plant m6A modification by promoting the autophagic degradation of the m6A writer HAKAI

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 

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Fig. 2 SlHAKAI interacts with PepMV RdRP

2

Epigenetic regulation of plant immunity: from chromatin codes to plant disease resistance

段成国课题组综述植物免疫调控中的表观遗传机制

Si-Si Xie, Cheng-Guo Duan

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Fig. 1 Pathogen-triggered transcriptional reprogramming in the plant immune response

3

Predicting rice diseases using advanced technologies at different scales: present status and future perspectives

刘羽飞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 

微信图片_20240717095223.jpg

Fig. 2 Major rice disease detection methods by advanced technology at different scales (Created with BioRender.com)

4

Two H3K36 methyltransferases differentially associate with transcriptional activity and enrichment of facultative heterochromatin in rice blast fungus

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

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Fig. 2 Ash1 and Set2 are responsible for the full activity of H3K36me2/3 in M. oryzae

5

A complete MAP kinase cascade controls hyphopodium formation and virulence ofVerticillium dahliae

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

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Fig. 2 Deletion of a specifific MAPK signifificantly compromises Verticillium dahliae hyphopodium formation and in vitro penetration

6

A lipid droplet-associated protein Nem1 regulates appressorium function for infection ofMagnaporthe oryzae

陈小林课题组鉴定稻瘟菌脂质代谢相关蛋白Nem1及其信号通路

Deng Chen, Xuan Cai, Junjie Xing, Shen Chen, Juan Zhao, Zhiguang Qu, Guotian Li, Hao Liu, Lu Zheng, Junbin Huang & Xiao-Lin Chen 

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Fig. 2  Nem1 is important for lipid accumulation and composition

7

Tomato leaf curl New Delhi virus: an emerging plant begomovirus threatening cucurbit production

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 

微信图片_20240717095637.jpgFig. 1 Disease symptoms caused by Tomato leaf curl New Delhi virus in foliage and fruit of different cucurbit species

8

TIR enzymatic functions: signaling molecules and receptor mechanisms

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 

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Fig. 1 Current understandings of TIR signaling mechanisms in bacteria, plants, and animals

9

Harnessing nanobodies to expand the recognition spectrum of plant NLRs for diverse pathogens

利用纳米抗体扩展植物NLR蛋白对病原菌的识别

Ruyi Wang, Guo-Liang Wang, Yuese Ning

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Fig.1 Expression of Pikm-1–nanobody and Pikm-2 leads to broad-spectrum resistance against pathogens containing the corresponding fluorescent proteins or effectors



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