XopAE Effector from Xanthomonas phaseoli pv. manihotis Targets HSP20-Like p23 Cochaperone to Suppress Plant Basal Immunity [0.03%]
来自木薯黄单胞菌致病变种的效应蛋白XopAE通过靶向HSP20-like p23分子伴侣来抑制植物基础免疫反应
Diana Gomez De la Cruz,Darwin A Castillo,Cesar A Trujillo B et al.
Diana Gomez De la Cruz et al.
Pathogenic bacteria use Type 3 effector proteins to manipulate host defenses and alter metabolism to favor their survival and spread. The non-model bacterial pathogen Xanthomonas phaseoli pv. manihotis (Xpm) causes devastating disease in ca...
Phytophthora alni Infection Reinforces the Defense Reactions in Alnus glutinosa - Frankia Roots to the Detriment of Nodules [0.03%]
Phytophthora alni 感染使桤木-固氮菌根受到损害
Mathilde Vincent,Hasna Boubakri,Pascale Fournier et al.
Mathilde Vincent et al.
Alnus glutinosa, able to establish symbiosis with mutualistic bacteria of the genus Frankia, is one of the main species in European riparian environments, where it performs numerous biological and socio-economic functions. However, riparian...
From Lesions to Lessons: Two Decades of Filamentous Plant Pathogen Genomics [0.03%]
从病斑到教训:丝状植物病原菌基因组学的二十年研究
Wagner C Fagundes,Yu-Seng Huang,Sophia Häußler et al.
Wagner C Fagundes et al.
Filamentous plant pathogens pose a severe threat to food security. Current estimates suggest up to 23% yield losses to pre- and post-harvest diseases and these losses are projected to increase due to climate change (Singh et al. 2023; Chalo...
Triple Threat: How Global Fungal Rice and Wheat Pathogens Utilize Comparable Pathogenicity Mechanisms to Drive Host Colonization [0.03%]
三重威胁:全球性稻瘟病和小麦赤霉病致病真菌利用相似的致病机制驱动寄主定殖
Rachel E Kalicharan,Jessie Fernadez
Rachel E Kalicharan
Plant pathogens pose significant threats to global cereal crop production, particularly for essential crops like rice and wheat, which are fundamental to global food security and provide nearly 40% of the global caloric intake. As the globa...
Technical Advances Drive the Molecular Understanding of Effectors from Wheat and Barley Powdery Mildew Fungi [0.03%]
技术进步推动小麦和大麦白粉病效应子分子机理研究
Merle Bilstein-Schloemer,Marion C Müller,Isabel M L Saur
Merle Bilstein-Schloemer
Pathogens manipulate host physiology through the secretion of virulence factors (effectors) to invade and proliferate on the host. The molecular functions of effectors inside plant hosts have been of interest in the field of molecular plant...
Distinct Virulence Mechanisms of Burkholderia gladioli in Onion Foliar and Bulb Scale Tissues [0.03%]
巴氏志贺芽孢杆菌洋葱叶片和鳞茎表皮组织病原性机制的区别
Sujan Paudel,Yaritza Franco,Mei Zhao et al.
Sujan Paudel et al.
Slippery skin of onion caused by Burkholderia gladioli pv. alliicola (Bga) is a common bacterial disease reported from onion growing regions around the world. Despite the increasing attention in recent years, our understanding of the virule...
Silvia Minana-Posada,Cécile Lorrain,Bruce A McDonald et al.
Silvia Minana-Posada et al.
Adaptation to new climates poses a significant challenge for plant pathogens during range expansion, highlighting the importance of understanding their response to climate to accurately forecast future disease outbreaks. The wheat pathogen ...
Comparative Review of Fusarium graminearum Infection in Maize and Wheat: Similarities in Resistance Mechanisms and Future Directions [0.03%]
玉米和小麦中 Fusarium graminearum 感染的比较评述:抗病机制的相似性及未来方向
Sarah Lipps,Martin Bohn,Jessica Rutkoski et al.
Sarah Lipps et al.
Fusarium graminearum is one of the most important plant-pathogenic fungi that causes disease on wheat and maize, as it decreases yield in both crops and produces mycotoxins that pose a risk to human and animal health. Resistance to Fusarium...
Rethinking Growth and Defense: miR472 as a Sensor and Regulator of Plant Immunity [0.03%]
miR472:植物免疫的感觉器和调节因子
Jawahar Singh,Ved Prakash
Jawahar Singh
Cell Wall Dynamics in the parasitic plant (Striga) and rice pathosystem [0.03%]
寄生植物(Striga)和稻瘟病病理系统中的细胞壁动力学
Damaris Barminga,Sylvia Mutinda,Fredrick M Mobegi et al.
Damaris Barminga et al.
In the plant-plant pathosystem of rice (Oryza sativa) and the parasitic plant Striga hermonthica, cell walls from either plant are important defensive and offensive structures. Here we reveal cell wall dynamics in both Striga and rice using...