The impact of three thioxothiazolidin compounds on trehalase activity and development of Spodoptera frugiperda larvae

Trehalases (TREs), serving as crucial enzymes regulating trehalose and chitin metabolism in insects, represent prime targets for pest control strategies. We investigated the impact of three thioxothiazolidin compounds (1G, 2G, and 11G) on TRE activity and summarized their effects on the growth and d...

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Veröffentlicht in:PeerJ (San Francisco, CA) CA), 2024-10, Vol.12, p.e18233, Article e18233
Hauptverfasser: Wu, Yan, Hu, Shangrong, Mao, Qixuan, Shi, Dongmei, Liu, Xiangyu, Liu, Busheng, Hua, Liyuhan, Hu, Gao, Li, Can, Duan, Hongxia, Tang, Bin
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Sprache:eng
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Zusammenfassung:Trehalases (TREs), serving as crucial enzymes regulating trehalose and chitin metabolism in insects, represent prime targets for pest control strategies. We investigated the impact of three thioxothiazolidin compounds (1G, 2G, and 11G) on TRE activity and summarized their effects on the growth and development of (Lepidoptera, Noctuidae). The experimental larvae of were injected with the three thioxothiazolidin compounds (1G, 2G, and 11G), while the control group received an equivalent volume of 2% DMSO as a control. All three compounds had a strong effect on inhibiting TRE activity, significantly prolonging the pre-pupal development stage. However, compared with the 11G-treated group, the survival rate of larvae treated with 1G and 2G was significantly reduced by 31.11% and 27.78% respectively, while the occurrence of phenotypic abnormalities related to growth and development was higher. These results manifest that only the TRE inhibitors, 1G and 2G, modulate trehalose and chitin metabolism pathways of larvae, ultimately resulting in the failure molting and reduction of survival rates. Consequently, the thioxothiazolidin compounds, 1G and 2G, hold potential as environmentally friendly insecticides.
ISSN:2167-8359
2167-8359
DOI:10.7717/peerj.18233