Benzoquinone synthesis-related genes of Tribolium castaneum confer the robust antifungal host defense to the adult beetles through the inhibition of conidial germination on the body surface
[Display omitted] •Functions of Tribolium benzoquinone synthesis-related genes were examined in vivo.•SEM observation revealed that germination of fungal conidia did not occur on adults.•Knockdown of these genes disrupted robust antifungal host defense of adults.•SEM observation demonstrated conidia...
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Veröffentlicht in: | Journal of invertebrate pathology 2020-01, Vol.169, p.107298-107298, Article 107298 |
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•Functions of Tribolium benzoquinone synthesis-related genes were examined in vivo.•SEM observation revealed that germination of fungal conidia did not occur on adults.•Knockdown of these genes disrupted robust antifungal host defense of adults.•SEM observation demonstrated conidial germination on the knockdown beetles.
Insects fight against invading microbial pathogens through various immune-related measures that comprise ‘internal’, ‘external’ as well as ‘social’ immunities. The defenses by external immunity associated with the cuticular integument are supposed to be of particular importance in repelling entomopathogenic fungi that infect host insects transcutaneously. Among such integument-related defenses, external secretions of benzoquinone derivatives typical of tenebrionid beetles have been suggested to play important roles in the antimicrobial defenses. In the present study, by utilizing the experimental infection system composed of the red flour beetle Tribolium castaneum and generalist ascomycete entomopathogens Beauveria bassiana and Metarhizium anisopliae, we performed the functional assays of the three T. castaneum genes whose involvement in benzoquinone synthesis in the adults has been reported, namely GT39, GT62 and GT63. Observations by scanning electron microcopy (SEM) revealed that the conidia of the two fungal species did not germinate on the wild-type adult body surface but did on the pupae. The expression analyses demonstrated that the levels of GT39 and GT62 mRNA increased from middle pupae and reached high in early adults while GT63 did not show a clear adult-biased expression pattern. The RNA interference-based knockdown of any of the three genes in pupae resulted in the adults compromised to the infection of the both fungal species. SEM observations revealed that the gene silencing allowed the conidial germination on the body surface of the knockdown beetles, thereby impairing the robust antifungal defense of adult beetles. Thus, we have provided direct experimental evidence for the functional importance in vivo of these benzoquinone synthesis-related genes that support the antifungal defense of tenebrionid beetles. |
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ISSN: | 0022-2011 1096-0805 |
DOI: | 10.1016/j.jip.2019.107298 |