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- Title
Engineered fungus containing a caterpillar gene kills insects rapidly by disrupting their ecto- and endo-microbiomes.
- Authors
Hong, Song; Gao, Hanchun; Chen, Haimin; Wang, Chengshu
- Abstract
Similar to the physiological importance of gut microbiomes, recent works have shown that insect ectomicrobiotas can mediate defensive colonization resistance against fungal parasites that infect via cuticle penetration. Here we show that engineering the entomopathogenic fungus Metarhizium robertsii with a potent antibacterial moricin gene from silkworms substantially enhances the ability of the fungus to kill mosquitos, locusts, and two Drosophila species. Further use of Drosophila melanogaster as an infection model, quantitative microbiome analysis reveals that engineered strains designed to suppress insect cuticular bacteria additionally disrupt gut microbiomes. An overgrowth of harmful bacteria such as the opportunistic pathogens of Providencia species is detected that can accelerate insect death. In support, quantitative analysis of antimicrobial genes in fly fat bodies and guts indicates that topical fungal infections result in the compromise of intestinal immune responses. In addition to providing an innovative strategy for improving the potency of mycoinsecticides, our data solidify the importance of both the ecto- and endo-microbiomes in maintaining insect wellbeing. Genetic engineering of Metarhizium robertsii with a silkworm antibacterial gene substantially boosts fungal potency against different insects. Both the cuticle and gut microbiomes can be disrupted to accelerate insect death after fungal infection.
- Subjects
DROSOPHILA melanogaster; GENETIC engineering; MYCOSES; INSECT genes; ENTOMOPATHOGENIC fungi
- Publication
Communications Biology, 2024, Vol 7, Issue 1, p1
- ISSN
2399-3642
- Publication type
Article
- DOI
10.1038/s42003-024-06670-z