Comparative Analyses of Compatible and Incompatible Host-Pathogen Interactions Provide Insight into Divergent Host Specialization of Closely Related Pathogens [0.03%]
对可相容和不相容的寄主病原互作进行比较分析以了解相近病原体在寄主特异化方面的差异
Janine Haueisen,Mareike Möller,Heike Seybold et al.
Janine Haueisen et al.
Host-pathogen co-evolutionary dynamics drive constant changes in plant pathogens to thrive in their plant host. Factors that determine host specificity are diverse and range from molecular and morphological strategies to metabolic and repro...
Jeff Dangl,Guo-Liang Wang,Brad Day et al.
Jeff Dangl et al.
Salicylic Acid Plays a Major Role in Potato Defense Against Powdery Scab Pathogen, Spongospora subterranea f. sp. subterranea [0.03%]
水杨酸在土豆防御粉痂病原体Spongospora subterranea f. sp. subterranea中起主要作用
Samodya K Jayasinghe,Natalia Moroz,Peiguo Yuan et al.
Samodya K Jayasinghe et al.
Potato powdery scab, caused by the soil-borne pathogen Spongospora subterranea f. sp. subterranea (Sss), poses a significant threat to potato production, reducing potato value and impacting fresh market quality. Effective management strateg...
Three Xanthomonas Cell Wall Degrading Enzymes and Sorghum Brown midrib 12 Contribute to Virulence and Resistance in the Bacterial Leaf Streak Pathosystem [0.03%]
三份蜡虫细胞壁降解酶和高粱褐条病12号基因对细菌叶条点症状系统中的毒力和抗性有贡献
Qi Wang,Kira Veley,Joshua M B Johnson et al.
Qi Wang et al.
With an increasing demand for renewable fuels, bioenergy crops are being developed with high sugar content and altered cell walls to improve processing efficiency. These traits may have unintended consequences for plant disease resistance. ...
Contrasting Roles of Plant GATA21/ 22 Transcriptional Regulators in Defense Against Fungal and Bacterial Pathogens [0.03%]
植物GATA21/22转录调节因子在抗真菌和细菌病原体防御中的不同作用
Nikhilesh Dhar,Amy Anchieta,Isaac Arnold et al.
Nikhilesh Dhar et al.
The GATA family of transcriptional regulators is broadly conserved between plant and animal kingdoms. Here, we report that some of the GATA genes are suppressed in Arabidopsis during fungal and bacterial infections. But strikingly, GATA21 a...
Identification of a Key Gain-of-Function Residue for Effector Binding by In Vitro Shuffling of Barley Mla NLR Genes [0.03%]
基于大麦MLA NLR基因的体外重组鉴定效应子结合的关键功能获得性残基
Xiaoxiao Zhang,Bayantes Dagvadorj,Jialing Gao et al.
Xiaoxiao Zhang et al.
Natural plant populations maintain high resistance (R) gene diversities that provide effective pathogen resistance; however, agricultural crops typically contain limited R gene diversity so resistance is often short-lived as pathogens evolv...
Exploration of the Interactions Between Xanthomonas citri subsp. citri- Agrobacterium-Citrus to Improve Agrobacterium-Mediated Transient Expression in Plants [0.03%]
拟南芥-柑橘黄单胞菌亚种-柑橘互作研究及其在农杆菌植物瞬时表达中的应用探索
Tirtha Lamichhane,Hang Su,Xiaoen Huang et al.
Tirtha Lamichhane et al.
Agrobacterium-mediated transient expression (AMTE) is an important tool in plant genetics study and biotechnology. AMTE remains problematic in citrus and many plant species. Previous study has shown that pretreatment of citrus leaves with X...
Intraspecific Variation and Recent Loss of Ancient, Conserved Effector Genes in the Sudden Oak Death Pathogen Phytophthora ramorum [0.03%]
栗属植物致死病原物(P phytophora ramorum)内的个体差异及对古老保守效应基因的近期丢失作用力的不同及近期丢失古老保守效应基因现象的研究
Nicholas C Cauldron,Caroline M Press,Alexandra J Weisberg et al.
Nicholas C Cauldron et al.
Members of the Phytophthora genus are responsible for many important diseases in agricultural and natural ecosystems. Phytophthora ramorum causes devastating diseases of oak, and tanoak stands in US forests and larch in the UK. The four evo...
Redox Status-Selective Imaging of Iron in Vegetative and Pathogenic Fungal Cells Using Fluorescent Dyes Synthesized Via Simple Chemical Reactions [0.03%]
基于简单化学反应合成的荧光染料用于植物和致病真菌细胞中铁的选择性氧化态成像研究
Lala Aliyeva-Schnorr,Niels V Heise,René Csuk et al.
Lala Aliyeva-Schnorr et al.
Iron plays a prominent role in various biological processes and is an essential element in almost all organisms, including plant-pathogenic fungi. As a transition element, iron occurs in two redox states, Fe2+ and Fe3+, the transition betwe...
The Fusarium graminearum Effector Protease FgTPP1 Suppresses Immune Responses and Facilitates Fusarium Head Blight Disease [0.03%]
禾谷镰孢菌效应蛋白酶FgTPP1通过抑制免疫反应促进小麦赤霉病发生
Martin Darino,Namrata Jaiswal,Reynaldi Darma et al.
Martin Darino et al.
Most plant pathogens secrete effector proteins to circumvent host immune responses, thereby promoting pathogen virulence. One such pathogen is the fungus Fusarium graminearum, which causes Fusarium Head Blight (FHB) disease on wheat and bar...