Genome Sequence of the Agrobacterium salinitolerans DG3-1 Isolated from Cotton Roots [0.03%]
耐盐农杆菌DG3-1(源于棉花根部)的基因序列
Haiting Hao,Zhe Wang,Changqing Gou et al.
Haiting Hao et al.
Agrobacterium salinitolerans DG3-1 is an endophytic bacterium isolated from cotton root tissue. Our previous work has shown that it can inhibit the growth of Fusarium and Verticillium wilt pathogens as well as increase the chlorophyll conte...
The Impact of Elsinoë ampelina Infection on Key Metabolic Properties in Vitis vinifera 'Red Globe' Berries via Multiomics Approaches [0.03%]
多组学方法研究葡萄刺盘孢感染对'红地球'葡萄浆果关键代谢特性的影响
Zhi Li,Linlin Gao,Pingping Chang et al.
Zhi Li et al.
Grape anthracnose caused by Elsinoë ampelina (Shear) is one of the most serious fungal diseases that lead to the quality reduction and yield losses of grape (Vitis vinifera 'Red Globe') berries. In the present study, metabolome and transcr...
AtMC1 Associates With LSM4 to Regulate Plant Immunity Through Modulating Pre-mRNA Splicing [0.03%]
AtMC1通过调节pre-mRNA剪接与LSM4关联以调控植物免疫
Shune Wang,Mei Xue,Chan He et al.
Shune Wang et al.
Alternative splicing of pre-mRNAs is an important gene regulatory mechanism shaping the transcriptome. AtMC1 is an Arabidopsis thaliana type I metacaspase that positively regulates the hypersensitive response. Here, we found that AtMC1 is i...
Alexandra Margets,Sharmin Rima,Matthew Helm et al.
Alexandra Margets et al.
The first of three International Society for Molecular Plant-Microbe Interactions (IS-MPMI) eSymposia was convened on 12 and 13 July 2021, with the theme "Molecular Mechanism & Structure-Zooming in on Plant Immunity". Hosted by Jian-Min Zho...
The Contributions to Virulence of the Effectors Eop1 and DspE Differ Between Two Clades of Erwinia tracheiphila Strains [0.03%]
两类Erwinia tracheiphila菌株效应物Eop1和DspE对毒力的贡献不同
Olakunle I Olawole,Qian Liu,Chiliang Chen et al.
Olakunle I Olawole et al.
Strains of Erwinia tracheiphila, causal agent of bacterial wilt of cucurbits, are divided into distinct clades. Et-melo clade strains wilt Cucumis spp. but not Cucurbita spp., thus exhibiting host specificity, whereas Et-C1 clade strains wi...
Host Adaptation Through Hybridization: Genome Analysis of Triticale Powdery Mildew Reveals Unique Combination of Lineage-Specific Effectors [0.03%]
通过杂交适应宿主:小麦ordechtite霜霉病基因组分析揭示了特定谱系效应物的独特组合
Marion C Müller,Lukas Kunz,Johannes Graf et al.
Marion C Müller et al.
The emergence of new fungal pathogens through hybridization represents a serious challenge for agriculture. Hybridization between the wheat mildew (Blumeria graminis f. sp. tritici) and rye mildew (B. graminis f. sp. secalis) pathogens has ...
Genome Sequence Resource for Erysiphe necator NAFU1, a Grapevine Powdery Mildew Isolate Identified in Shaanxi Province of China [0.03%]
中国陕西省葡萄白粉病菌Erysiphe necator NAFU1株系基因组序列资源
Xingyuan Zhang,Bo Mu,Kaicheng Cui et al.
Xingyuan Zhang et al.
Erysiphe necator is an economically important biotrophic fungal pathogen responsible for powdery mildew disease on grapevine. Currently, genome sequences are available for only a few E. necator isolates from the United States. Based on the ...
High-Quality Complete Genome Resource of Tomato Rhizosphere Strain Pseudomonas donghuensis P482, a Representative of a Species with Biocontrol Activity Against Plant Pathogens [0.03%]
高质量番茄根围链霉单胞菌P482基因组序列资源及其对植物病原菌的生物防治作用
Dorota M Krzyżanowska,Adam Iwanicki,Robert Czajkowski et al.
Dorota M Krzyżanowska et al.
Strain P482 was isolated from a tomato rhizosphere and classified as Pseudomonas donghuensis. The P. donghuensis species was first established in 2015 and currently consists of only four strains: P482, HYST, SVBP6, and 22G5. P. donghuensis ...
Computational Structural Genomics Unravels Common Folds and Novel Families in the Secretome of Fungal Phytopathogen Magnaporthe oryzae [0.03%]
计算结构基因组学揭示稻瘟病菌分泌蛋白质组的常见折叠方式和新的蛋白家族
Kyungyong Seong,Ksenia V Krasileva
Kyungyong Seong
Structural biology has the potential to illuminate the evolution of pathogen effectors and their commonalities that cannot be readily detected at the primary sequence level. Recent breakthroughs in protein structure modeling have demonstrat...
Alterations in Sucrose and Phenylpropanoid Metabolism Affected by BABA-Primed Defense in Postharvest Grapes and the Associated Transcriptional Mechanism [0.03%]
BABA诱导的采后葡萄抗性反应中糖及酚类物质变化及相关转录机制分析
Chunhong Li,Kaituo Wang,Changyi Lei et al.
Chunhong Li et al.
Defense elicitors can induce fruit disease resistance to control postharvest decay but may incur quality impairment. Our present work aimed to investigate the resistance against Botrytis cinerea induced by the elicitor β-aminobutyric acid ...