Potential of Burkholderia seminalis TC3.4.2R3 as Biocontrol Agent Against Fusarium oxysporum Evaluated by Mass Spectrometry Imaging

Species of genus Burkholderia display different interaction profiles in the environment, causing either several diseases in plants and animals or being beneficial to some plants, promoting their growth, and suppressing phytopathogens. Burkholderia spp. also produce many types of biomolecules with an...

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Bibliographic Details
Published in:Journal of the American Society for Mass Spectrometry 2017-05, Vol.28 (5), p.901-907
Main Authors: Araújo, Francisca Diana da Silva, Araújo, Welington Luiz, Eberlin, Marcos Nogueira
Format: Article
Language:English
Subjects:
Analytical Chemistry
Antifungal Agents - analysis
Antifungal Agents - metabolism
Antiinfectives and antibacterials
Antimicrobial agents
Bacteria
Biocompatibility
Bioinformatics
Biomolecules
Biotechnology
Burkholderia - chemistry
Burkholderia - cytology
Burkholderia - metabolism
Chemistry
Chemistry and Materials Science
Coculture Techniques
Desorption
Fungal diseases
Fungi
Fusarium
Fusarium - chemistry
Fusarium - cytology
Fusarium - metabolism
Fusarium oxysporum
Glycolipids - analysis
Glycolipids - metabolism
Ionization
Ions
Lasers
Mass spectrometry
Metabolites
Microorganisms
Mycotoxins
Mycotoxins - analysis
Mycotoxins - metabolism
Organic Chemistry
Pest Control, Biological
Phenols - analysis
Phenols - metabolism
Plant diseases
Plant Diseases - microbiology
Plant Diseases - prevention & control
Plants (botany)
Proteomics
Research Article
Scientific imaging
Siderophores - analysis
Siderophores - metabolism
Spectrometry
Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods
Spectroscopy
Thiazoles - analysis
Thiazoles - metabolism
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Summary:Species of genus Burkholderia display different interaction profiles in the environment, causing either several diseases in plants and animals or being beneficial to some plants, promoting their growth, and suppressing phytopathogens. Burkholderia spp. also produce many types of biomolecules with antimicrobial activity, which may be commercially used to protect crops of economic interest, mainly against fungal diseases. Herein we have applied matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI-MSI) to investigate secondary metabolites produced by B. seminalis TC3.4.2R3 in monoculture and coculture with plant pathogen Fusarium oxysporum . The siderophore pyochelin and the rhamnolipid Rha-Rha-C15-C14 were detected in wild-type B. seminalis strain, and their productions were found to vary in mutant strains carrying disruptions in gene clusters associated with antimicrobial compounds. Two mycotoxins were detected in F. oxysporum . During coculture with B. seminalis , metabolites probably related to defense mechanisms of these microorganisms were observed in the interspecies interaction zone. Our findings demonstrate the effective application of MALDI-MSI in the detection of bioactive molecules involved in the defense mechanism of B. seminalis , and these findings suggest the potential use of this bacterium in the biocontrol of plant diseases caused by F. oxysporum . Graphical Abstract ᅟ
ISSN:1044-0305
1879-1123
DOI:10.1007/s13361-017-1610-6