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WRKY Transcription Factors Associated With NPR1-Mediated Acquired Resistance in Barley Are Potential Resources to Improve Wheat Resistance to Puccinia triticina

机译：大麦NPR1介导的获得性抗性相关的WRKY转录因子是提高小麦对小麦锈病的抗性的潜在资源

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Systemic acquired resistance (SAR) in Arabidopsis is established beyond the initial pathogenic infection or is directly induced by treatment with salicylic acid or its functional analogs (SA/INA/BTH). NPR1 protein and WRKY transcription factors are considered the master regulators of SAR. Our previous study showed that NPR1 homologs in wheat (Triticum aestivum L.) and barley (Hordeum vulgare L.) regulated the expression of genes encoding pathogenesis-related (PR) proteins during acquired resistance (AR) triggered by Pseudomonas syringae pv. tomato DC3000. In the present examination, AR induced by P. syringae DC3000 was also found to effectively improve wheat resistance to Puccinia triticina (Pt). However, with more complex genomes, genes associated with this SAR-like response in wheat and barley are largely unknown and no specific WRKYs has been reported to be involved in this biological process. In our subsequent analysis, barley transgenic line overexpressing wheat wNPR1 (wNPR1-OE) showed enhanced resistance to Magnaporthe oryzae isolate Guy11, whereas AR to Guy11 was suppressed in a barley transgenic line with knocked-down barley HvNPR1 (HvNPR1-Kd). We performed RNA-seq to reveal the genes that were differentially expressed among these transgenic lines and the wild-type barley plants during the AR. Several PR and BTH-induced (BCI) genes were designated as downstream genes of NPR1. The expression of few WRKYs was significantly associated with NPR1 expression during the AR events. The transient expression of three WRKY genes, including HvWRKY6, HvWRKY40, and HvWRKY70, in wheat leaves by Agrobacterium-mediated infiltration enhanced the resistance to Pt. In conclusion, a profile of genes associated with NPR1-mediated AR in barley was drafted and WRKYs discovered in the current study showed a substantial potential for improving wheat resistance to Pt.

机译：拟南芥中的系统获得性抗药性（SAR）已建立，超出了最初的病原性感染，或者通过水杨酸或其功能类似物（SA / INA / BTH）的治疗直接诱导。 NPR1蛋白和WRKY转录因子被认为是SAR的主要调节因子。我们之前的研究表明，在小麦丁香假单胞菌（pseudomonas syringae pv）触发的获得性抗性（AR）期间，小麦（Triticum aestivum L.）和大麦（Hordeum vulgare L.）的NPR1同源物调节编码致病相关（PR）蛋白的基因的表达。番茄DC3000。在本次检查中，还发现丁香假单胞菌DC3000诱导的AR有效提高了小麦对小麦锈病的抗性。然而，随着基因组的复杂性，与小麦和大麦中这种SAR样反应相关的基因在很大程度上是未知的，并且没有报道具体的WRKY参与这一生物学过程。在我们的后续分析中，过表达小麦wNPR1（wNPR1-OE）的大麦转基因株系对稻瘟病菌分离株Guy11表现出增强的抗性，而在敲除大麦HvNPR1（HvNPR1-Kd）的大麦转基因株系中，对Guy11的AR被抑制。我们进行了RNA测序，以揭示在AR期间这些转基因品系和野生型大麦植物之间差异表达的基因。几个PR和BTH诱导（BCI）基因被指定为NPR1的下游基因。在AR事件中，少数 WRKYs 的表达与 NPR1 的表达显着相关。 HvWRKY6 ， HvWRKY40 和 HvWRKY70 三个 WRKY 基因在小麦叶片中的瞬时表达农杆菌介导的浸润增强了对 Pt 的抗性。总之，绘制了与大麦中 NPR1 介导的AR相关的基因图谱，并且在当前研究中发现的 WRKYs 显示出提高小麦对抗性的巨大潜力。 Pt 。 展开▼

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Jing Gao; Weishuai Bi; Huanpeng Li; Jiaojiao Wu; Xiumei Yu; Daqun Liu; Xiaodong Wang;
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年(卷),期 -1(9),-1

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页码 1486

总页数 14

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WRKY transcription factors NPR1 acquired resistance barley wheat Puccinia triticina;

机译：WRKY转录因子;NPR1;获得性抗性;大麦;小麦;小麦锈菌;

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专利

1. WRKY Transcription Factors Shared by BTH-Induced Resistance and NPR1-Mediated Acquired Resistance Improve Broad-Spectrum Disease Resistance in Wheat [J] . Huanpeng Li, Jiaojiao Wu, Xiaofeng Shang, Molecular Plant-Microbe Interactions . 2020,第3期

机译：Bth诱导抗性和NPR1介导的获得性抗性的腕骨转录因子提高了小麦的广谱疾病抗性

2. Virulence characterization of a leaf rust field population and analyzation of effective leaf rust (Puccinia triticina f. sp. tritici) resistance genes in wheat (Triticum aestivum). [German]Original Title Charakterisierung der Virulenz einer Braunrost-Feldpopulation (Puccinia triticina f. sp. tritici) und Nachweis effektiver Braun-rost-resistenz-gene in Weizen (Triticum aestivum). [J] . Serfling A., Luthardt L., Ordon F. Gesunde Pflanzen . 2011,第3期

机译：小麦（ Triticum aestivum f。Sp。 tritici ）抗性基因分析>）。 [德语]小麦锈病褐锈病种群（ Puccinia ticticina f。Sp。 tritici ）的毒力特征和有效小麦抗锈病基因的检测（普通小麦）。

3. Analysis of wheat (Triticum aestivum L.) brown rust (Puccinia triticina) disease factor and identification of resistance genes in wheat germ plasms in Iran. [J] . Farid M., Afshari F., Khodarahmi M., Archives of Phytopathology and Plant Protection . 2013,第9a12期

机译：伊朗小麦（Pticnia triticina）褐锈病（Puccinia triticina）病害因子分析及抗病基因鉴定。

4. Genotype determination in selection wheat samples with adult-plant resistance using Puccinia triticina pathotypes labeled with various virulence genes. [C] . E.D. Kovalenko, M.I. Kiseleva, A.I. Lapochkina, International Wheat Genetics Symposium . 2003

机译：使用各种毒力基因标记的PUCCINIA TRITICINA病理术患者具有成人植物抗性的基因型测定。

5. Genomic mapping of leaf rust and stem rust resistance loci in durum wheat and use of RAD-Genotype by Sequencing for the study of population genetics in Puccinia triticina [D] . Aoun, Meriem. 2016

机译：杜兰姆小麦叶片锈病和茎锈抗性基因座的基因组映射及吡锡群群体遗传学研究的用途抗基因型

6. The wheat WRKY transcription factors TaWRKY49 and TaWRKY62 confer differential high-temperature seedling-plant resistance to Puccinia striiformis f. sp. tritici [O] . Junjuan Wang, Fei Tao, Wei Tian, 2011

机译：小麦WRKY转录因子TaWRKY49和TaWRKY62赋予小麦幼苗对条锈菌的不同抗性。 sp。小麦

7. WRKY Transcription Factors Associated With NPR1-Mediated Acquired Resistance in Barley Are Potential Resources to Improve Wheat Resistance to Puccinia triticina [O] . Jing Gao, Weishuai Bi, Huanpeng Li, 2018

机译：与大麦NPR1介导的抗性抗性相关的腕骨转录因子是提高小麦抗病患者的潜在资源

1. 农杆菌介导系统获得性抗性调节基因(NPR1)转化罗汉果的研究 [J] . 李文兰 ,李景剑 ,李华英 . 上海农业学报 . 2010,第004期

2. 过量表达拟南芥NPR1基因提高小麦纹枯病的抗性 [J] . 周淼平 ,杨学明 ,姚金保 . 分子植物育种 . 2012,第6期

3. 新疆小拟南芥NPR1基因对植物系统获得性抗性的影响 [J] . 裴娟 ,欧秀玲 ,李凤 . 中国农学通报 . 2016,第14期

4. 小麦锈病抗性基因推导研究进展 [J] . 白玉路 ,章振羽 ,徐世昌 . 植物保护 . 2010,第004期

5. 辽宁省小麦锈病和白粉病的病原动态及新品种(系)抗性表现 [J] . 邱永春 ,张书绅 ,刘永丽 . 辽宁农业科学 . 2000,第002期

6. 小麦—中间偃麦草新种质对大麦黄矮病毒（BYDV）—GAV株系的抗性研究 [C] . 刘艳 ,钱幼亭 ,梁影屏 . 第三届中国国际农业科技年会 . 1999

7. 大麦草酸氧化酶与WRKY转录因子参与调控核盘菌抗性的分子机理 [A] . 刘飞 . 2015

1. 茄子SmWRKY转录因子及其在提高茄子青枯病抗性方面的应用 [P] . 中国专利： CN112225788B . 2021.12.14

2. 一种柿WRKY转录因子基因在提高柿炭疽病抗性中的应用 [P] . 中国专利： CN112481294A . 2021-03-12

3. Transgene construct to improve Fusarium head blight resistance in wheat and barley [P] . 外国专利： US9506081B1 . 2016-11-29

机译：转基因构建物改善小麦和大麦的镰刀菌头枯萎病抗性

4. Gene encoding for a transcription factor which regulates the expression of defense related genes in rice and method for inducing the systemic acquired resistance by using this gene [P] . 外国专利： KR100382167B1 . 2003-04-26

机译：编码调节水稻防御相关基因表达的转录因子的基因和利用该基因诱导系统获得性抗性的方法

5. Gene encoding for a transcription factor which regulates the expression of defense related genes in rice and method for inducing the systemic acquired resistance by using this gene [P] . 外国专利： KR20020015179A . 2002-02-27

机译：编码调节水稻防御相关基因表达的转录因子的基因和利用该基因诱导系统获得性抗性的方法

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WRKY Transcription Factors Associated With NPR1-Mediated Acquired Resistance in Barley Are Potential Resources to Improve Wheat Resistance to Puccinia triticina

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