Protein Language Model-Driven Optimisation of Antimicrobial Peptide Pth-Ca1 Against Pectobacterium brasiliense Using ESMFold-Predicted Structures and the ESM-3 Model [0.03%]
基于ESMFold预测结构和ESM-3模型的抗菌肽Pth-Ca1优化以对抗Pectobacterium brasiliense的蛋白质语言模型驱动方法
Linhui Song,Ge Zhang,Mengying Hua et al.
Linhui Song et al.
The emergence of antimicrobial resistance (AMR) poses a significant threat to global health and food security. Antimicrobial peptides (AMPs), particularly those characterised by α-helical structures, represent a promising alternative due t...
Tomato Brown Rugose Fruit Virus Evades Tm-22-Mediated Resistance by Avoiding the Induction of Tm-22 Self-Association [0.03%]
番茄褐色皱果病毒通过避免诱导Tm-22自身结合来逃避Tm-22介导的抗性
Hua-Yu Ma,Yi-Jie Liu,Xiao-Xue Huan et al.
Hua-Yu Ma et al.
Tomato brown rugose fruit virus (ToBRFV) overcomes Tm-22-mediated resistance, posing a serious threat to global tomato production. We previously identified that key residues in the movement protein (MP)-H67, N125, K129, A134, I147 and I168 ...
Chemical Priming by Neonicotinoids Unveils CaNEN4 as a Susceptibility Gene Against Phytophthora capsici in Pepper [0.03%]
新烟碱素诱导的化学 priming 促使人们发现辣椒中抵御Phytophthora capsici的易感基因CaNEN4
Geng Meng,Shujia Wang,Yiheng Hou et al.
Geng Meng et al.
The oomycete Phytophthora capsici causes Phytophthora blight, a major constraint on global pepper production. Our previous observations indicated that pretreating plants with thiamethoxam (TMX) and imidacloprid (IMI) could reduce the incide...
Sspdhx Related to the Development and Virulence of Sclerotinia sclerotiorum Represents a Potential RNAi Target for Controlling Sclerotinia Disease [0.03%]
与Sclerotinia sclerotiorum的发育和致病性相关的Sspdhx代表了控制核盘菌病的潜在RNAi靶点
Qingna Shang,Shunrui Yang,Chunyu Feng et al.
Qingna Shang et al.
Sclerotinia sclerotiorum is a destructive pathogen with a broad host range, long-term soil survival, and is difficult to control. Silencing virulence-related genes is a strategy for controlling Sclerotinia disease. In this study, we identif...
Enterobacter Species: Opportunistic Human and Plant Pathogens With Plant-Beneficial Traits [0.03%]
肠杆菌属:具有植物有益性状的人和植物条件致病菌
Sara Jordan,Pieter de Maayer,Theo H M Smits et al.
Sara Jordan et al.
Enterobacter species occur across diverse habitats and are best known for causing opportunistic and nosocomial infections in humans. The taxonomy of this genus is complex, with many species reassigned to and from this genus. Their interacti...
Functional Dissection of a Wheat NLR Protein Reveals a Minimal Active Region and Key Regulatory Sites for Immune Signalling [0.03%]
功能性解剖小麦NLR蛋白揭示了免疫信号传导的最小活性区域和关键调节位点
Xiaoxu Zhu,Shuo Jiang,Jinchen Zhao et al.
Xiaoxu Zhu et al.
Nucleotide-binding site (NBS) leucine-rich repeat (LRR) receptors (NLRs) are crucial for plant immunity but often come with trade-offs in plant growth. Understanding the mechanisms of their self-regulating activity for controlled immune res...
Stagonosporopsis cucurbitacearum Effector Protein ScAA9 Contributes to Virulence and Triggers Plant Immune Responses [0.03%]
瓜果腐霉效应蛋白ScAA9参与毒性并激发植物免疫反应
Mengmeng Guo,Jiajun Lou,Shaojie Han et al.
Mengmeng Guo et al.
Fungal pathogens secrete cell wall-degrading enzymes that either act as virulence factors or are perceived by plants to trigger immunity responses. Stagonosporopsis cucurbitacearum causes gummy stem blight, a devastating disease affecting c...
GhSTH-2 Integrates Host Redox Signalling and Effector Recognition and Confers Resistance Against Verticillium dahliae in Cotton [0.03%]
棉纤维GHSTH-2整合宿主氧化还原信号和效应子识别并抵御Verticillium dahliae入侵
Siyu Zhang,Jinglong Zhou,Zili Feng et al.
Siyu Zhang et al.
PR10/Bet v1-like proteins are key mediators of plant defence responses against microbial pathogens. Verticillium wilt, caused by the soil-borne fungus Verticillium dahliae, represents a major threat to global cotton production, yet the func...
Mechanistic Insights for Microbiome Application in Plant Disease Resistance [0.03%]
植物病害抗性的微生物组应用机制研究
Jiakang Yin
Jiakang Yin
Plant diseases caused by biotic and abiotic stresses pose a great threat to both plant health and yield. Plant microbiomes play a crucial role in improving disease resistance, representing a sustainable approach to enhance crop performance....
ZmWRKY92-Mediated miR169s/NF-YA13 Module Confers Maize Resistance to Bipolaris maydis by Activating Flavonoid Biosynthesis [0.03%]
ZmWRKY92介导的miR169s/NF-YA13模块通过激活黄酮类生物合成介导玉米对Bipolaris maydis的抗性
Zheng Song,Zhongxian Ma,Yulu Wang et al.
Zheng Song et al.
MicroRNAs (miRNAs) are pivotal regulators of plant immunity. While our prior work implicated zma-miR169s in maize defence against Bipolaris maydis, its upstream regulation and downstream signalling mechanisms remained elusive. Here, we deci...