Establishment of Basic Compatibility Through Pathogen Sulfur Scavenging Is Essential for Laurel Wilt Disease Development [0.03%]
通过病原体硫清除建立基本兼容性是疫橡树萎病发病所必需的
Joshua L Konkol,Qiang Wang,Jeffrey A Rollins
Joshua L Konkol
Invasive, lethal tree diseases continue to have devastating effects on forest ecology, commercial timber production, horticulture trade and agriculture production. Laurel wilt, caused by the recently introduced fungus Harringtonia lauricola...
A Broadly Distributed Rhizobacterium, Roseateles chitinivorans P500, Promotes Growth and Systemic Resistance via Jasmonic Acid-Dependent Oxylipin Signaling in Grasses [0.03%]
草地稻属菌P500广谱促进草类植物生长和系统抗性研究——兼论茉莉酸依赖型氧脂质信号通路的作用机制
Pei-Cheng Huang,Christopher Q Ngo,Adoriam Dewalt et al.
Pei-Cheng Huang et al.
Harnessing root-associated microbiomes to promote beneficial microbial compositions could offer a sustainable strategy to increase crop resilience. Major challenges impeding this strategy are the lack of understanding of which native member...
Partners in Crime: Elucidating the Molecular Underpinnings of Nematode-Pathogen Disease Complexes [0.03%]
论虫病复合体的分子机理
Alison Blundell,Bardo Castro,Veronica I Casey et al.
Alison Blundell et al.
Plant-parasitic nematodes (PPNs) are a serious threat to global food security, with estimated annual losses exceeding $173 billion. Beyond their direct damage, interactions between PPNs and other phytopathogens can lead to synergistic relat...
Corné M J Pieterse
Corné M J Pieterse
When disease resistance was still viewed as a vague physiological response rather than a genetically defined process, Flor laid the foundation for our modern understanding of plant immunity with his gene-for-gene concept. Initially develope...
Single Amino Acid Change at Two Conserved Residues in Tomato Brown Rugose Fruit Virus Coat Protein Compromises Virion Assembly and Viral Systemic Infection [0.03%]
番茄花叶斑果病毒衣壳蛋白在两个保守残基上的单一氨基酸变异影响病毒颗粒装配和病毒系统侵染
Shaokang Zhang,Yinzi Li,Brian Weselowski et al.
Shaokang Zhang et al.
Tomato brown rugose fruit virus (ToBRFV; Tobamovirus fructirugosum) is a recently discovered new species in the genus Tobamovirus that causes the ongoing pandemic and threatens tomato production worldwide. In this study, we determined the c...
Structural and Transcriptional Diversity in the Repertoire of Sclerotinia sclerotiorum Effector Candidates [0.03%]
Sclerotinia sclerotiorum效应子候选基因的结构和转录多样性
Darcy A B Jones,Sylvain Raffaele
Darcy A B Jones
The necrotrophic fungal pathogen Sclerotinia sclerotiorum is distinguished by its exceptionally broad host range, infecting numerous plant species across diverse genera. While historically characterized by a seemingly unspecialized infectio...
Rosa Lopez-Cobollo,Simone Altmann,Peter Thorpe et al.
Rosa Lopez-Cobollo et al.
Molecular interactions between aphids and plants include delivery of salivary effector proteins into host cells, acting as virulence factors to suppress host immunity, or as avirulence functions triggering immune activation. However, unders...
Trichoderma virens DM5 Against Agroathelia rolfsii in Tomato: A Gateway to Understanding Its Biocontrol-Biostimulant Trade-off [0.03%]
哈茨木霉DM5防治番茄罗氏耳梗病菌的研究:一种揭示其生物防治与植物促生间权衡关系的途径
Naveen Arakkal Thaiparambil,Chien-Hua Chen,Hung-Chia Chang et al.
Naveen Arakkal Thaiparambil et al.
Agroathelia rolfsii causes stem rot in multiple crops, survives as sclerotia in the absence of host plants, and remains a difficult to manage pathogen globally. While Trichoderma species offer a sustainable biocontrol solution, their dual r...
Characterizing the Effector Repertoire of Plasmodiophora brassicae: Insights into Clubroot Pathogenesis [0.03%]
克拉伯病原种效应子组库分析及其对寄主致病的分子机制研究
Emilee R M Storfie,Adriana E Lang,Charitha P A Jayasinghege et al.
Emilee R M Storfie et al.
Plasmodiophora brassicae, the obligate parasite responsible for clubroot in Brassica crops and other crucifers, poses a major challenge to sustainable disease management due to its biotrophic lifestyle and adaptability. Recent advances in g...
A Salivary Effector's Secret: How Pea Aphids Tip the Balance in Their Favor [0.03%]
唾液效应物的秘密——豌豆蚜虫如何利用唾液效应回归生态优势
Ved Prakash,Meenu Singla-Rastogi
Ved Prakash