Combination of atmospheric and room temperature plasma and ribosome engineering techniques to enhance the antifungal activity of Bacillus megaterium L2 against Sclerotium rolfsii
文献类型: 外文期刊
作者: Wei, Long-feng 1 ; Wang, Yong-xin 1 ; Li, Zhu 1 ; Pan, Hang 1 ; Xiao, Yang 3 ; Sun, Ran 1 ; Zhao, Hao 1 ; An, Tao-tao 1 ;
作者机构: 1.Guizhou Univ, Inst Agrobioengn, Coll Life Sci, Key Lab Plant Resource Conservat & Germplasm Innov, Guiyang, Peoples R China
2.Guizhou Key Lab Agr Biotechnol, Guiyang, Peoples R China
3.Inst Supervis & Inspect Prod Qual Guizhou Prov, Guiyang, Peoples R China
关键词:
plant diseases; biological control;
期刊名称:PEST MANAGEMENT SCIENCE ( 影响因子:3.8; 五年影响因子:4.3 )
ISSN: 1526-498X
年卷期: 2025 年 81 卷 3 期
页码:
收录情况: SCI
摘要: BACKGROUNDSclerotium rolfsii is an extremely destructive phytopathogenic fungus that causes significant economic losses. Biocontrol strategies utilizing antagonistic microorganisms present a promising alternative for controlling plant pathogens. Bacillus megaterium L2 has been identified as a potential microbial biocontrol agent in our previous study; however, its efficacy in controlling pathogens has yet to meet current demands. This study aims to enhance the antifungal activity of strain L2 against S. rolfsii R-67 through a two-round mutagenesis strategy and to preliminarily investigate the mutagenesis mechanism of the high antifungal activity mutant.RESULTSWe obtained mutant Dr-77 with the strongest antifungal activity against R-67, and its cell-free supernatant significantly reduced the infection potential of R-67 to Amorphophallus konjac corms, which may be attributed to the antimicrobial compound phenylacetic acid (PAA), and PAA content in Dr-77 (5.78 mg/mL) was 28.90 times higher than original strain L2. This compound exhibited strong antifungal ability against R-67, with a half maximal effective concentration (EC50) value of 0.475 mg/mL, significantly inhibiting mycelial growth and destroying the ultrastructure of R-67 at EC50 value. Notably, PAA also exhibited broad-spectrum antifungal activity against six phytopathogens at EC50 value. Moreover, genome analysis revealed nine different gene mutations, including those involved in PAA biosynthesis, and the activities of prephenate dehydratase (PheA) and phenylacetaldehyde dehydrogenase (ALDH) in PAA biosynthesis pathway were significantly increased.CONCLUSIONThese results suggest that the elevated PAA content is a primary factor contributing to the enhanced antifungal activity of Dr-77, and that this mutagenesis strategy offers valuable guidance for the breeding of functional microbial resources. (c) 2024 Society of Chemical Industry.
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