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本文引用的文献

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Characterization of a Tospovirus Isolate of Iris Yellow Spot Virus Associated with a Disease in Onion Fields in Brazil.与巴西洋葱田一种病害相关的鸢尾黄斑病毒番茄斑萎病毒属分离物的特性分析
Plant Dis. 1999 Apr;83(4):345-350. doi: 10.1094/PDIS.1999.83.4.345.
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Occurrence and Geographical Distribution of Tospovirus Species Infecting Tomato Crops in Argentina.侵染阿根廷番茄作物的番茄斑萎病毒属病毒种类的发生情况及地理分布
Plant Dis. 2001 Dec;85(12):1227-1229. doi: 10.1094/PDIS.2001.85.12.1227.
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Intracellular innate immune surveillance devices in plants and animals.动植物细胞内的固有免疫监视装置。
Science. 2016 Dec 2;354(6316). doi: 10.1126/science.aaf6395.
4
A multilayered regulatory mechanism for the autoinhibition and activation of a plant CC-NB-LRR resistance protein with an extra N-terminal domain.一种具有额外N端结构域的植物CC-NB-LRR抗性蛋白的自抑制和激活的多层调节机制。
New Phytol. 2016 Oct;212(1):161-75. doi: 10.1111/nph.14013. Epub 2016 May 12.
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Regulation of pattern recognition receptor signalling in plants.植物模式识别受体信号转导的调控。
Nat Rev Immunol. 2016 Sep;16(9):537-52. doi: 10.1038/nri.2016.77. Epub 2016 Aug 1.
6
Cell death triggering and effector recognition by Sw-5 SD-CNL proteins from resistant and susceptible tomato isolines to Tomato spotted wilt virus.来自对番茄斑萎病毒具有抗性和敏感性的番茄同系物的Sw-5 SD-CNL蛋白引发细胞死亡及效应识别
Mol Plant Pathol. 2016 Dec;17(9):1442-1454. doi: 10.1111/mpp.12439. Epub 2016 Aug 14.
7
The ER-Membrane Transport System Is Critical for Intercellular Trafficking of the NSm Movement Protein and Tomato Spotted Wilt Tospovirus.内质网-膜转运系统对于NSm运动蛋白和番茄斑萎病毒的细胞间运输至关重要。
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Comparative Analysis of the Flax Immune Receptors L6 and L7 Suggests an Equilibrium-Based Switch Activation Model.亚麻免疫受体L6和L7的比较分析表明了一种基于平衡的开关激活模型。
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The rice immune receptor XA21 recognizes a tyrosine-sulfated protein from a Gram-negative bacterium.水稻免疫受体XA21识别来自革兰氏阴性细菌的一种酪氨酸硫酸化蛋白。
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Structural basis of pathogen recognition by an integrated HMA domain in a plant NLR immune receptor.植物NLR免疫受体中整合的HMA结构域识别病原体的结构基础
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细胞内免疫受体 Sw-5b 通过识别保守的 21 个氨基酸病毒效应子表位赋予对 Tospoviruses 的广谱抗性。

The Intracellular Immune Receptor Sw-5b Confers Broad-Spectrum Resistance to Tospoviruses through Recognition of a Conserved 21-Amino Acid Viral Effector Epitope.

机构信息

Department of Plant Pathology, Nanjing Agricultural University, Nanjing 210095, P.R. China.

Institute of Plant Protection, Hunan Academy of Agricultural Sciences, Changsha 410125, China.

出版信息

Plant Cell. 2017 Sep;29(9):2214-2232. doi: 10.1105/tpc.17.00180. Epub 2017 Aug 16.

DOI:10.1105/tpc.17.00180
PMID:28814646
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5635987/
Abstract

Plants use both cell surface-resident pattern recognition receptors (PRRs) and intracellular nucleotide binding leucine-rich repeat (NLR) receptors to detect various pathogens. Plant PRRs typically recognize conserved pathogen-associated molecular patterns (PAMPs) to provide broad-spectrum resistance. By contrast, plant NLRs generally detect pathogen strain-specific effectors and confer race-specific resistance. Here, we demonstrate that the tomato () NLR Sw-5b confers broad-spectrum resistance against American-type tospoviruses by recognizing a conserved 21-amino acid peptide region within viral movement protein NSm (NSm). Sw-5b NB-ARC-LRR domains directly associate with NSm in vitro and in planta. Domain swap, site-directed mutagenesis and structure modeling analyses identified four polymorphic sites in the Sw-5b LRR domain that are critical for the recognition of NSm Furthermore, recognition of NSm by Sw-5b likely disturbs the residues adjacent to R927 in the LRR domain to weaken the intramolecular interaction between LRR and NB-ARC domains, thus translating recognition of NSm into activation of Sw-5b. Natural variation analysis of Sw-5b homologs from wild tomato species of South America revealed that the four polymorphic sites in the Sw-5b LRR domain were positively selected during evolution and are all necessary to confer resistance to tospovirus. The results described here provide a new example of a plant NLR mediating broad-spectrum resistance through recognition of a small conserved PAMP-like region within the pathogen effector.

摘要

植物利用细胞表面驻留的模式识别受体(PRRs)和细胞内核苷酸结合富含亮氨酸重复(NLR)受体来检测各种病原体。植物 PRRs 通常识别保守的病原体相关分子模式(PAMPs)以提供广谱抗性。相比之下,植物 NLR 通常检测病原体株特异性效应子并赋予特定的抗性。在这里,我们证明番茄()NLR Sw-5b 通过识别病毒运动蛋白 NSm 内的保守 21 个氨基酸肽区域来赋予广谱抗性对美国型口蹄疫病毒。Sw-5b NB-ARC-LRR 结构域在体外和体内直接与 NSm 结合。结构域交换、定点突变和结构建模分析确定了 Sw-5b LRR 结构域中的四个多态性位点对于 NSm 的识别至关重要。此外,Sw-5b 对 NSm 的识别可能会扰乱 LRR 结构域中 R927 附近的残基,从而削弱 LRR 和 NB-ARC 结构域之间的分子内相互作用,从而将对 NSm 的识别转化为 Sw-5b 的激活。对来自南美洲野生番茄物种的 Sw-5b 同源物的自然变异分析表明,Sw-5b LRR 结构域中的四个多态性位点在进化过程中受到正选择,并且对于赋予对口蹄疫病毒的抗性都是必需的。这里描述的结果提供了一个新的例子,说明植物 NLR 通过识别病原体效应子内的小保守 PAMP 样区域来介导广谱抗性。