Proteomics

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Biocontrol potentials and proteomic response of lipopeptide producing B. velezensis strains to Diaporthe spp.


ABSTRACT: Lipopeptide biosurfactant producing Bacillus strains have many useful applications in biotechnology and agriculture, based on their emulsifying, surface activity and antimicrobial properties. In the current study, lipopeptide production kinetics, and biocontrol potentials of two new B. velezensis strains, ES1-02 and EFSO2-04 were analyzed and compared with those of commercial strains QST713 and FZB42. ES1-02 and EFSO2-04 showed higher specific growth rates than FZB42, but lower growth rates than QST713. All strains produced surfactin lipopetides, while fengycin production was not observed in ES1-02 and EFSO2-04. Production of fengycin A, B, X and Y were however confirmed in strains QST713 and FZB42. Significant differences were observed in the production of lipopeptides of the iturin family. While ES1-02 and EFSO2-04 produced bacillomycin L, QST713 produced iturin A, and FZB42 produced bacillomycin D. This was in line with the PCR analysis of corresponding genes encoding the identified lipopeptides. Highest surfactin titer of 97.4 mg/L was observed in ES1-02, while QST713 produced highest amount of iturin/bacillomycin (8.5 mg/L). Surfactin isoforms C12 to C17, and iturin/bacillomycin isoforms C11 to C17 were identified by mass spectrometry. ES1-02 and EFSO2-04 showed biocontrol potentials comparable with that of QST713 against Diaporthe spp., while FZB42 showed superior antifungal potentials. Up to 41%, 43%, 47 % and 68.9 % inhibition of D. caulivora were achieved by ES1-02, EFSO2-04, QST713 and FZB42 respectively. Upon exposure to B. velezensis strains, morphological changes to Diaporthe hyphae in form of swellings, distortion, and complete disruption occurred. Interaction of D. longicolla DPC_HOH20 with ES1-02 and EFSO2-04 induced 10-fold and 5-fold increase in surfactin synthesis, respectively. Antagonist interaction with D. longicolla induced significant changes in the proteome of ES1-02 including an increased abundance of several proteins associated with biosynthesis of antimicrobial compounds and fatty acids, while proteins associated with phosphate uptake were decreased in abundance.

INSTRUMENT(S): Orbitrap Exploris 480

ORGANISM(S): Bacteria Bacillus Velezensis

TISSUE(S): Cell Culture

DISEASE(S): Disease Free

SUBMITTER: Jens Pfannstiel  

LAB HEAD: Dr. Lars Lilge

PROVIDER: PXD035016 | Pride | 2023-10-24

REPOSITORIES: Pride

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Characterization ofantifungal properties of lipopeptide-producing <i>Bacillus velezensis</i> strains and their proteome-based response to the phytopathogens, <i>Diaporthe</i> spp.

Akintayo Stephen Olusanmi SO   Hosseini Behnoush B   Vahidinasab Maliheh M   Messmer Marc M   Pfannstiel Jens J   Bertsche Ute U   Hubel Philipp P   Henkel Marius M   Hausmann Rudolf R   Voegele Ralf T RT   Lilge Lars L  

Frontiers in bioengineering and biotechnology 20230807


<b>Introduction:</b> <i>B. velezensis</i> strains are of interest in agricultural applications due to their beneficial interactions with plants, notable through their antimicrobial activity. The biocontrol ability of two new lipopeptides-producing <i>B. velezensis</i> strains ES1-02 and EFSO2-04, against fungal phytopathogens of <i>Diaporthe</i> spp., was evaluated and compared with reference strains QST713 and FZB42. All strains were found to be effective against the plant pathogens, with the n  ...[more]

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