Draft Genome Resources for Brassicaceae Pathogens Fusarium oxysporum f. sp. raphani and Fusarium oxysporum f. sp. rapae [0.03%]
萝卜疫霉和甘蓝型疫霉的粗糙基因组资源(芸苔属病原菌)
Shuta Asai,Yu Ayukawa,Pamela Gan et al.
Shuta Asai et al.
The soilborne filamentous fungus Fusarium oxysporum causes devastating diseases of many cultivated plant species. F. oxysporum f. sp. raphani and f. sp. rapae are two of four formae speciales that are pathogenic to Brassicaceae plants. Here...
Examination of the Global Regulon of CsrA in Xanthomonas citri subsp. citri Using Quantitative Proteomics and Other Approaches [0.03%]
定量蛋白质组学和其他方法测定柑橘黄单胞菌CsrA全基因组作用位点及其调控网络
Yanan Zhang,Maxuel O Andrade,Wenting Wang et al.
Yanan Zhang et al.
The RNA-binding protein CsrA is a global posttranscriptional regulator and controls many physiological processes and virulence traits. Deletion of csrA caused loss of virulence, reduced motility and production of xanthan gum and substantial...
Serendipita Fungi Modulate the Switchgrass Root Transcriptome to Circumvent Host Defenses and Establish a Symbiotic Relationship [0.03%]
丛枝菌根真菌通过调节能源草的根系转录谱以规避宿主防卫反应并与其建立共生关系
Prasun Ray,Yingqing Guo,Myoung-Hwan Chi et al.
Prasun Ray et al.
The fungal family Serendipitaceae encompasses root-associated lineages with endophytic, ericoid, orchid, and ectomycorrhizal lifestyles. Switchgrass is an important bioenergy crop for cellulosic ethanol production owing to high biomass prod...
Complete Genome Resources for Ralstonia Bacterial Wilt Strains UW763 (Phylotype I); Rs5 and UW700 (Phylotype II); and UW386, RUN2474, and RUN2279 (Phylotype III) [0.03%]
完整的拟侧胞杆菌全基因组资源:I型菌株UW763、II型菌株Rs5和UW700、III型菌株UW386、RUN2474 和 RUN2279
Olivia R Steidl,Alicia N Truchon,Madeline M Hayes et al.
Olivia R Steidl et al.
We share whole genome sequences of six strains from the Ralstonia solanacearum species complex, a diverse group of Betaproteobacteria that cause plant vascular wilt diseases. Using single-molecule real-time technology, we sequenced and asse...
Application of Target Enrichment Sequencing for Population Genetic Analyses of the Obligate Plant Pathogens Pseudoperonospora cubensis and P. humuli in Michigan [0.03%]
目标富集测序在密歇根州黄瓜霜霉菌和啤酒花霜霉菌群体遗传分析中的应用
Julian C Bello,Mary K Hausbeck,Monique L Sakalidis
Julian C Bello
Technological advances in genome sequencing have improved our ability to catalog genomic variation and have led to an expansion of the scope and scale of genetic studies over the past decade. Yet, for agronomically important plant pathogens...
Whole-Genome Data from Curtobacterium flaccumfaciens pv. flaccumfaciens Strains Associated with Tan Spot of Mungbean and Soybean Reveal Diverse Plasmid Profiles [0.03%]
来自与绿豆和大豆褐斑病相关的Curtobacterium flaccumfaciens pv. flaccumfaciens菌株的全基因组数据揭示了多样的质粒谱型
Niloofar Vaghefi,Dante L Adorada,Lauren Huth et al.
Niloofar Vaghefi et al.
Despite the substantial economic impact of Curtobacterium flaccumfaciens pv. flaccumfaciens on legume production worldwide, the genetic basis of its pathogenicity and potential host association is poorly understood. The production of high-q...
Fusarium verticillioides Induces Maize-Derived Ethylene to Promote Virulence by Engaging Fungal G-Protein Signaling [0.03%]
藤仓氏 Fusarium verticillioides 通过利用真菌的G蛋白信号传导来诱导玉米衍生乙烯以促进致病性
Yong-Soon Park,Eli J Borrego,Xiquan Gao et al.
Yong-Soon Park et al.
Seed maceration and contamination with mycotoxin fumonisin inflicted by Fusarium verticillioides is a major disease concern for maize producers worldwide. Meta-analyses of quantitative trait loci for Fusarium ear rot resistance uncovered se...
Genomic Sequence Resource of Kabatiella zeae, the Causative Pathogen of Corn Eyespot Disease [0.03%]
玉米眼斑病病原菌Kabatiella zeae的基因组资源
Yafei Wang,Jinai Yao,Xinyao Xia et al.
Yafei Wang et al.
Kabatiella zeae is the causative pathogen of corn eyespot disease, which is an important leaf disease that damages corn (Zea mays L.) worldwide. In this study, we provided an annotated draft of the assembled genome of the K. zeae field stra...
Focus on How Plants Engage With Beneficial Microorganisms While at the Same Time Restricting Pathogens [0.03%]
聚焦植物在利用有益微生物的同时限制病原体的机制研究
Jeanne M Harris,Kathryn M Jones,Dong Wang et al.
Jeanne M Harris et al.
Plants live in a world filled with microbes, and spend their lives engaged in the delicate dance of nurturing beneficial interactions while simultaneously reducing disease-causing interactions. How do plants engage with beneficial microorga...
ER Bodies Are Induced by Pseudomonas syringae and Negatively Regulate Immunity [0.03%]
丁香假单胞菌诱导的ER体通过抑制ETI发挥防卫负调控作用
José S Rufián,James M Elmore,Eduardo R Bejarano et al.
José S Rufián et al.
ER bodies are endoplasmic reticulum-derived organelles present in plants belonging to the Brassicales order. In Arabidopsis thaliana, ER bodies are ubiquitous in cotyledons and roots and are present only in certain cell types in rosette lea...