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Ann Bot. 2017 Oct 17;120(4):551-562. doi: 10.1093/aob/mcx089.

Insights into the molecular basis of biocontrol of Brassica pathogens by Bacillus amyloliquefaciens UCMB5113 lipopeptides.

Author information

Department of Plant Biology, Uppsala Biocenter, Linnéan Center for Plant Biology, Swedish University of Agricultural Sciences, S-75007 Uppsala, Sweden.
Microbial Processes and Interactions Laboratory, University of Liège/Gembloux Agro-Bio Tech, B-5030 Gembloux, Belgium.
Mass Spectrometry Laboratory, University of Liège, B-4000 Liège, Belgium.
Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China.


Background and Aims:

Certain micro-organisms can improve plant protection against pathogens. The protective effect may be direct, e.g. due to antibiotic compounds, or indirect, by priming of plant defence as induced systemic resistance (ISR). The plant growth-promoting rhizobacterium Bacillus amyloliquefaciens UCMB5113 shows potential for disease management of oilseed rape. To investigate the mode of action of this protection, especially in relation to jasmonic acid-dependent ISR, Bacillus UCMB5113 was tested with Arabidopsis thaliana mutants and several important fungal pathogens of Brassica species.


Secreted lipopeptide fractions from Bacillus UCMB5113, together with synthetic peptide mimics, were evaluated for their effects on fungal phytopathogens and A. thaliana . The structures of secreted lipopeptides were analysed using mass spectrometry. Plant mutants and reporter lines were used to identify signalling steps involved in disease suppression by lipopeptides.

Key Results:

In plate tests Bacillus UCMB5113 and lipopeptide extracts suppressed growth of several fungal pathogens infecting Brassica plants. Separation of secreted lipopeptides using reversed-phase high-performance liquid chromatography revealed several fractions that inhibited fungal growth. Analysis by mass spectrometry identified the most potent compounds as novel linear forms of antifungal fengycins, with synthetic peptide mimics confirming the biological activity. Application of the lipopeptide extracts on Arabidopsis roots provided systemic protection against Alternaria brassicicola on leaves. Arabidopsis signalling mutants and PDF1.2 and VSP2 promoter-driven GUS lines indicated that the lipopeptide fraction involved jasmonic-acid-dependent host responses for suppression of fungal growth indicative of ISR.


The ability of Bacillus UCMB5113 to counteract pathogens using both antagonistic lipopeptides and through ISR provides a promising tool for sustainable crop production.


Antagonism; Arabidopsis thaliana; Bacillus amyloliquefaciens; beneficial bacteria; biocontrol; lipopeptide; rhizosphere

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