期刊
TOXINS
卷 14, 期 8, 页码 -出版社
MDPI
DOI: 10.3390/toxins14080555
关键词
space exposure; entomopathogenic fungi; pathogenicity; secondary metabolites
资金
- Key Area Research and Development Program of Guangdong Province [2018B020205003]
- Science and technology program of Guangdong Province [2021A1515011058]
This study reveals significant differences in secondary metabolite profiles between an entomopathogenic fungus isolated from the wild and those exposed to spaceflight conditions. The findings support the use of space mutation as a tool for developing fungal strains with increased toxicity/virulence against target insect hosts.
Studies on microorganism response spaceflight date back to 1960. However, nothing conclusive is known concerning the effects of spaceflight on virulence and environmental tolerance of entomopathogenic fungi; thus, this area of research remains open to further exploration. In this study, the entomopathogenic fungus Beauveria bassiana (strain SB010) was exposed to spaceflight (ChangZheng 5 space shuttle during 5 May 2020 to 8 May 2020) as a part of the Key Research and Development Program of Guangdong Province, China, in collaboration with the China Space Program. The study revealed significant differences between the secondary metabolite profiles of the wild isolate (SB010) and the spaceflight-exposed isolate (BHT021, BH030, BHT098) of B. bassiana. Some of the secondary metabolites/toxins, including enniatin A2, brevianamide F, macrosporin, aphidicolin, and diacetoxyscirpenol, were only produced by the spaceflight-exposed isolate (BHT021, BHT030). The study revealed increased insecticidal activities for of crude protein extracts of B. bassiana spaceflight mutants (BHT021 and BH030, respectively) against Megalurothrips usitatus 5 days post application when compared crude protein extracts of the wild isolate (SB010). The data obtained support the idea of using space mutation as a tool for development/screening of fungal strains producing higher quantities of secondary metabolites, ultimately leading to increased toxicity/virulence against the target insect host.
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