Pathogenesis, Host Resistance and Integrated Management of Sugarcane Smut Caused by Sporisorium scitamineum: A Comprehensive Review [0.03%]
甘蔗灰叶斑病的病原性、寄主抗性和综合管理:综述
Zhen Zeng,Qibin Wu,Dongjiao Wang et al.
Zhen Zeng et al.
Sugarcane smut, caused by the fungus Sporisorium scitamineum, is a devastating disease that threatens sugar production, leading to significant yield losses. The pathogen disrupts sugarcane growth by forming whip-like structures filled with ...
Phenylacetate Hydroxylase SsPhacA Modulates p-Coumaric Acid Accumulation to Regulate the Mating/Filamentation of Sporisorium scitamineum [0.03%]
苯乙酸羟基酶SsPhacA通过调节对香豆酸积累调控三交丝核菌的配对/出芽生殖
Bo Xiong,Nannan Zhang,Yirong Guo et al.
Bo Xiong et al.
Sugarcane smut, caused by Sporisorium scitamineum, is one of the most severe sugarcane diseases. A key pathogenic step is dikaryotic mycelium formation via sexual reproduction, but its regulatory mechanism is unclear. In this study, we iden...
Some Like it Hot: Efficiency of the Type III Secretion System has Multiple Thermosensitive Behaviours in the Pseudomonas syringae Complex [0.03%]
高温影响气传假单胞菌三型分泌系统效率的新机制
E Caullireau,D Danzi,V M Tempo et al.
E Caullireau et al.
The Pseudomonas syringae species complex is an important group of ubiquitous bacteria containing plant-pathogenic strains of which many strains cause damage and economic losses to a wide range of crops. Efforts to elucidate host range deter...
Broadening Virus Resistance Through Gene Pyramiding of eIF4E Family Members [0.03%]
利用eIF4E家族成员基因堆砌来扩大病毒抗性
Masato Suzuki,Masanobu Nishikawa,Toya Yamamoto et al.
Masato Suzuki et al.
Recessive resistance, achieved through mutations in host susceptibility genes, offers an effective way for controlling plant viruses. One well-studied gene family involved in such resistance is the eukaryotic translation initiation factor 4...
FaMYB63 and FvWYRKY75 Activate FvPR10.14 Boosting Strawberry Immunity Against Powdery Mildew [0.03%]
FaMYB63和FvWYRKY75通过激活FvPR10.14促进草莓抗白粉病免疫反应
Rongyi Jiang,Tao Tao,Xingbin Xie et al.
Rongyi Jiang et al.
Powdery mildew, caused by Podosphaera aphanis, poses a significant threat to strawberry production, while current chemical controls raise environmental and food safety concerns. In this study, we have identified the key regulatory module, F...
Beatriz García,José Vicente Del Álamo,Mario Rincón et al.
Beatriz García et al.
Recent studies proposed that the negative strands of some single-stranded, positive-sense RNA viruses contain reverse open reading frames (rORFs) that encode functional peptides. Highly conserved rORFs were found in the negative strand of v...
Experimental Coevolution Reveals That Ralstonia pseudosolanacearum PhcA Contributes to the Infection of Filamentous Phage RSCq [0.03%]
实验共进化研究表明Ralstonia pseudosolanacearum的PhcA蛋白有助于丝状噬菌体RSCq的感染
Hailing Liang,Jiatian Chen,Yanan Xu et al.
Hailing Liang et al.
The interaction between bacteria and filamentous phages, particularly in the context of bacterial pathogenesis, remains poorly understood compared with the well-documented interactions involving lytic phages. Here, we investigated the coevo...
Correction to Extra-Large G-Proteins Influence Plant Response to Sclerotinia sclerotiorum by Regulating Glucosinolate Metabolism in Brassica juncea [0.03%]
油菜芸苔素中大型G蛋白通过调节糖硫代谢影响植物对Sclerotinia sclerotiorum的反应(英文)
Published Erratum
Molecular plant pathology. 2025 Dec;26(12):e70183. DOI:10.1111/mpp.70183 2025
GmMEKK2 Disrupts the MKK1/2-MPK4 Cascade to Amplify Immune Signalling and Confer Enhanced Resistance to Soybean Mosaic Virus [0.03%]
GmMEKK2干扰GmMKK1/2-GmMPK4信号通路以放大免疫信号并增强对大豆花叶病毒的抗性
Xuanbo Zhong,Jingxiang Luo,Yucheng Ruan et al.
Xuanbo Zhong et al.
Mitogen-activated protein kinase kinase kinase (MAPKKK) assumes a pivotal position within the MAPK cascade, converting external stimuli into intracellular responses and mediating plant stress resistance. However, there are limited reports i...
Phytophthora infestans RxLR Effector PiAvr3b Targets NADP-Malic Enzyme to Promote Infection [0.03%]
植物病原疫霉菌效应蛋白PiAvr3b靶向马铃薯抗病蛋白R3a的分子机制研究
Wenxin Gao,Biao Gu,Chunyue Liu et al.
Wenxin Gao et al.
Phytophthora infestans, the causal agent of potato late blight, employs divergent RxLR effectors to undermine host immunity. One such effector, PiAvr3b, is known to activate resistance in plants carrying the R3b gene; however, its virulence...