Interactions of Arabidopsis and M. truncatula with the same pathogens differ in dependence on ethylene and ethylene response factors.

Anderson J. P.; Singh K. B.

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Interactions of Arabidopsis and M. truncatula with the same pathogens differ in dependence on ethylene and ethylene response factors.

机译：拟南芥和 M的相互作用。具有相同病原体的藜对乙烯和乙烯反应因子的依赖性不同。

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Microbial pathogens inflict large losses to agriculture annually and thus mechanisms of plant resistance and how to deploy them to enhance disease resistance in crops are foci of much research interest. We recently described the important role of ethylene and Ethylene Response transcription Factors (ERFs), particularly MtERF1-1, in mediating resistance to the fungal pathogen Rhizoctonia solani in the model legume, Medicago truncatula. Previous studies on the closely related AtERF14, a master regulator of ethylene dependent defenses including other ERFs, suggested that in Arabidopsis these defenses were not essential for resistance to the same R. solani isolate but were required for resistance to another fungal pathogen, Fusarium oxysporum. Medicago plants with roots over-expressing MtERF1-1 were challenged with F. oxysporum but showed no altered resistance. These results further support a potential for divergent roles of ethylene associated defenses in different plant hosts responding to the same pathogen.

机译：微生物病原体每年给农业造成巨大损失，因此植物抗药性的机制以及如何利用它们来增强农作物的抗病性是许多研究热点。我们最近在豆科植物<藜苜蓿模型中描述了乙烯和乙烯反应转录因子（ERFs），特别是MtERF1-1在介导真菌病原体 Rhizoctonia solani 的抗性中的重要作用。我>。先前对紧密相关的AtERF14（包括其他ERF在内的乙烯依赖性防御的主要调节剂）的研究表明，在拟南芥中，这些防御对于抵抗相同的R并不是必需的。 solani 分离株，但需要抗另一种真菌病原体 oxysporum 。用 F攻击根系过度表达 MtERF1-1 的苜蓿植物。氧孢子，但未显示出抗性的改变。这些结果进一步支持了在对同一病原体作出反应的不同植物宿主中乙烯相关防御的不同作用的潜力。

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《Plant signaling & behavior》 |2011年第4期|共2页
作者
Anderson J. P.; Singh K. B.;
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正文语种 eng
中图分类植物学;
关键词
defence mechanisms; disease resistance; endogenous growth regulators; ethylene; fungal diseases; plant diseases; plant growth regulators; plant pathogenic fungi; plant pathogens; transcription factors; Arabidopsis thaliana; fungi; Fusarium oxysporum; Medicago truncatula; Thanatephorus cucumeris; Arabidopsis; Brassicaceae; Capparidales; dicotyledons; angiosperms; Spermatophyta; plants; eukaryotes; Fusarium; Nectriaceae; Hypocreales; Sordariomycetes; Pezizomycotina; Ascomycota; fungi; fungus; Medicago; Papilionoideae; Fabaceae.Fabales; Thanatephorus; Ceratobasidiaceae; Cantharellales; Agaricomycetes; Agaricomycotina; Basidiomycota; Capparales; defense mechanisms; fungus; phytopathogenic fungi; phytopathogens; plant growth substances; plant hormones; plant-pathogenic fungi; resistance to disease;

机译：防御机制;抗病性;内源性生长调节剂;乙烯;真菌病;植物病害;植物生长调节剂;植物病原真菌;植物病原体;转录因子;拟南芥;真菌;尖孢镰刀菌;Me藜;小黄瓜;黄瓜;拟南芥;芸苔par科;双子叶植物;Angosperms;精子植物;植物;真核生物;Fusarium;Nectriaceae;Hypocreales;Sordariomycetes;Pezizomycotina;Ascomycota;真菌;Fungus;Medicago;Papilionoideae;Basacey;科;伞形科;伞形科;科防御机制;真菌;植物病原真菌;植物病原体;植物生长物质;植物激素;植物病原真菌;抗病性;

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1. Interactions of Arabidopsis and M. truncatula with the same pathogens differ in dependence on ethylene and ethylene response factors. [J] . Anderson J. P., Singh K. B. Plant signaling & behavior . 2011,第4期

机译：拟南芥和 M的相互作用。具有相同病原体的藜对乙烯和乙烯反应因子的依赖性不同。
2. The B-3 ethylene response factor MtERF1-1 mediates resistance to a subset of root pathogens in Medicago truncatula without adversely affecting symbiosis with rhizobia [J] . Anderson J.P., Lichtenzveig J., Gleason C., Plant physiology . 2010,第2期

机译：B-3乙烯反应因子MtERF1-1介导对Medi藜苜蓿中一部分根系病原菌的抗性，而不会对根瘤菌共生产生不利影响
3. Auxin and ethylene response interactions during Arabidopsis root hair development dissected by auxin influx modulators [J] . Rahman A, Hosokawa S, Oono Y, Plant physiology . 2002,第4期

机译：生长素流入调节剂分析拟南芥根毛发育过程中的生长素和乙烯反应相互作用
4. Nontargeted Metabolite Profiling Approach to Investigate the Role of Reactive Oxygen Species and Ethylene in Compatible Plant-Pathogen Interaction [C] . Myung Hee Nam, Kyoungwon Cho, Yuran Kim, International Mass Spectrometry Conference . 2014

机译：不准确的代谢物分析方法，以研究反应性氧物种和乙烯在相容植物 - 病原体相互作用中的作用
5. Enhanced ethylene response genes EER3 and EER5 encode key components of the ethylene signal transduction pathway in Arabidopsis. [D] . Christians, Matthew James. 2008

机译：增强的乙烯反应基因EER3和EER5编码拟南芥中乙烯信号转导途径的关键成分。
6. Interactions of Arabidopsis and M. truncatula with the same pathogens differ in dependence on ethylene and ethylene response factors [O] . Jonathan P Anderson, Karam B Singh 2011

机译：拟南芥和沙棘分枝杆菌与相同病原体的相互作用对乙烯和乙烯反应因子的依赖性不同
7. Interactions of Arabidopsis and M. truncatula with the same pathogens differ in dependence on ethylene and ethylene response factors [O] . Anderson, Jonathan P, Singh, Karam B 2011

机译：拟南芥和沙棘分枝杆菌与相同病原体的相互作用对乙烯和乙烯反应因子的依赖性不同

Interactions of Arabidopsis and M. truncatula with the same pathogens differ in dependence on ethylene and ethylene response factors.

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