期刊论文

Wang, Guo-Liang

英文

分子植物

1674-2052

2013

6

3

605-620

10.1093/mp/sst015

This work was supported by the US NSF-IOS to G.L.W. （1120949） the National Natural Science Foundation of China to W.D.L. （31272034） Y.S.N. （31101405） and X.L.W. （31101404） the 973 Project （2012CBl14005） of Ministry of Science and Technology China and the National Transgenic Crop Initiative to G.L.W. （2012ZX08009001） and the Scientific and Technological Innovation Program of Hunan Universities from Hunan Department of Science and Technology and the Program for Innovative Research Team in University from Ministry of Education in China IRT1239） to Z.L.W. No conflict of interest declared.

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Rice blast, caused by the fungal pathogen Magnaporthe oryzae, is one of the most destructive diseases of rice worldwide. The rice-M. oryzae pathosystem has become a model in the study of plant-fungal interactions because of its scientific advancement and economic importance. Recent studies have identified a number of new pathogen-associated molecular patterns (PAMPs) and effectors from the blast fungus that trigger rice immune responses upon perception. Interaction analyses between avirulence effectors and their cognate resistance proteins have provided new insights into the molecular basis of...

瑞斯强风，由真菌的病原体 Magnaporthe oryzae 引起了，是世界范围的米饭的最破坏的疾病之一。riceM。因为它的科学前进和经济重要性， oryzae pathosystem 在 plantfungal 相互作用的学习成为了一个模型。最近的研究从强风真菌识别了很多个新联系病原体的分子的模式(PAMP ) 和受动器在感觉之上的扳机米饭免疫者回答。在无毒性受动器和他们的血缘的抵抗蛋白质之间的相互作用分析提供了新卓见进 plantfungal 相互作用的分子的基础。在这评论，我们在两 M 在那些基因的描述上总结最近的研究。为被触发 PAMP 、被触发受动器的免疫识别和发信号的过程是重要的 oryzae 和米饭。我们也为将推进我们这...