茉莉酸
丁香酚
丁香假单胞菌
NPR1
植物免疫
生物
启动(农业)
水杨酸
植物对草食的防御
拟南芥
免疫系统
拟南芥
微生物学
病菌
植物
化学
生物化学
免疫学
基因
突变体
医学
有机化学
发芽
利钠肽
心力衰竭
内科学
作者
Shogo Hirose,Soyoka Horiyama,Atsushi Morikami,Kazuki Fujiwara,Hironaka Tsukagoshi
摘要
Abstract Plants, as sessile organisms, must adapt to environmental changes and defend themselves against biotic stress, including pathogen attack. Their immune responses entail recognition of pathogen patterns, activation of defense mechanisms, and accumulation of various antimicrobial compounds. Eugenol, abundant in basil, has antibacterial properties and enhances plant resistance to viruses. However, its priming effects on biotrophic pathogens remain unclear. Thus, we investigated whether eugenol and basil essential oils could prime Arabidopsis thaliana immunity against the hemi-biotroph Pseudomonas syringae pv. maculicola (Psm) MAFF302723. Our study revealed that both eugenol and basil essential oils functioned as priming agents, mitigating disease symptoms upon Psm infection. This priming effect occurred via NPR1-dependent but salicylic acid-independent signaling. Moreover, our gene expression analysis suggested that priming might influence jasmonic acid/ethylene signaling. These findings underscore the potential of employing natural compounds such as basil essential oil to bolster plant immune responses in sustainable agricultural practices.
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