贝莱斯芽孢杆菌N46对苦瓜白粉病的防治机理研究OA北大核心CSTPCD
Control Mechanism of Bacillus velezensis N46 Against Powdery Mil-dew of Bitter Melon
为探究贝莱斯芽孢杆菌N46对苦瓜白粉病的防治机理,以前期分离得到的贝莱斯芽孢杆菌N46处理盆栽苦瓜,通过检测白粉病病原菌Podosphaera xanthii的孢子萌发率、叶片防御酶活性的变化、活性氧积累、细胞过敏性坏死、木质素积累、抗病相关基因表达量的变化以及抗病表现的依赖途径,开展N46的防治机理研究.结果表明:高浓度(6× 108 CFU/mL)的贝莱斯芽孢杆菌N46对苦瓜白粉病的防治效果达到59.05%;N46处理的苦瓜在病原菌侵染时其防御酶过氧化物酶(POD)、过氧化氢酶(CAT)、超氧化物歧化酶(SOD)活性的变化幅度和峰值出现了大幅增加,活性氧(ROS)积累显著增加,过敏性坏死率显著提高,显著增强了细胞壁的木质素积累率,同时观察到N46对叶面白粉病病原菌孢子萌发有显著的抑制作用.本研究检测了经N46处理的苦瓜的抗病相关基因:茉莉酸(jasmonic acid,JA)反应性标记脂氧合酶基因(LOC111018837)、水杨酸(salicylic acid,SA)反应性标记基因(LOC111017362)、与过敏反应和细胞壁强化相关的过氧化物酶基因(LOC111021192)表达量的变化,与对照相比,这些基因在苦瓜被白粉病菌侵染时表达量显著增加,其中处理组的JA反应性标记基因在未接触病原菌时也高于对照组的表达水平.说明N46处理的苦瓜在未接触病原菌时即保持了一定水平的抗性基因的"预启动",而在病原菌侵染时才出现更高的表达水平.通过布洛芬(IBU)抑制植株的JA反应途径,使贝莱斯芽孢杆菌N46对于苦瓜白粉病的防效几乎消失,表明N46诱导的苦瓜白粉病抗性的产生依赖于JA途径.综上所述,贝莱斯芽孢杆菌N46通过抑制叶面白粉病菌孢子萌发和诱导苦瓜产生依赖于JA途径的抗病性起到对苦瓜白粉病的良好防治效果.本研究为苦瓜白粉病的生物防治提供了新方法,为贝莱斯芽孢杆菌对苦瓜白粉病的防治作用提供理论依据.
Potted bitter melon was treated with Bacillus velezensis N46 to explore the mechanism of preventing powdery mildew of bitter melon.The prevention mechanism of N46 was studied by detecting the spore germination rate of pow-dery mildew pathogen(Podosphaera xanthii),changes in leaf defense enzyme activity,accumulation of reactive oxygen species,cell allergic necrosis,lignin accumulation,changes in the expression of disease-resistance related genes and disease-resistance pathways.The control effect of high concentration(6×108 CFU/mL)of B.velezensis N46 on powdery mildew of bitter melon reached 59.05%.In the N46 treatment group,the range and peak value of the activity of defense enzymes POD,CAT and SOD increased significantly,the accumulation of reactive oxygen species(ROS)increased significantly,the rate of anaphylactic necrosis increased significantly,and the rate of lignin accumulation in cell wall was significantly enhanced.N46 had a significant inhibitory effect on the conidial germination of pathogen powdery mildew.The expression levels of JA reactive marker lipoxygenase gene(LOC111018837),SA reactive marker gene(LOC111017362)and peroxidase gene(LOC111021192)associated with allergic reaction and cell wall strengthening were detected in the N46 treated bitter melon.Compared with the control group,the expression levels of the genes in-creased significantly when bitter melon was infected with the powdery mildew bacteria,and the expression levels of J A reactive marker genes in the treatment group were also higher than those in the control group when there was no contact with pathogenic bacteria.The results indicated that N46 treated bitter melon maintained a certain level of"preactiva-tion"of resistance genes when it was not exposed to pathogenic bacteria,but showed a higher expression level when it was exposed to pathogenic bacteria.Finally,the JA response pathway was inhibited by ibuprofen(IBU),and the control effect of B.velesiensis N46 on powdery mildew of bitter melon was almost disappeared,suggesting that the generation of N46 induced powdery mildew resistance of bitter melon depended on JA pathway.In conclusion,B.velezensis N46 has a good control effect on powdery mildew of bitter melon by inhibiting the conidium germination of megalomyces-foliata and inducing JA pathway dependent resistance of bitter melon.This study would provide a new method for the biological control of powdery mildew of bitter melon and a theoretical basis for the effect of B.velezensis on the control of powdery mildew of bitter melon.
项佳胤;商桑;田丽波
海南大学生命健康学院,海南海口 570228海南大学生命健康学院,海南海口 570228||海南大学三亚南繁研究院,海南三亚 572000海南大学三亚南繁研究院,海南三亚 572000
植物保护学
贝莱斯芽孢杆菌苦瓜白粉病防治机理诱导抗性
Bacillus velezensispowdery mildew of bitter meloncontrol mechanisminduced systemic resistance
《热带作物学报》 2024 (006)
1292-1302 / 11
国家自然科学基金项目(No.32060682);海南省重大科技计划项目(No.ZDKJ2021010);海南省自然科学基金项目(No.322RC576).
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