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Response of xenobiotic biodegradation and metabolic genes in Tribolium castaneum following eugenol exposure.

Authors :
Zhang, Yonglei
Gao, Shanshan
Zhang, Ping
Sun, Haidi
Lu, Ruixue
Yu, Runnan
Li, Yanxiao
Zhang, Kunpeng
Li, Bin
Source :
Molecular Genetics & Genomics; May2022, Vol. 297 Issue 3, p801-815, 15p
Publication Year :
2022

Abstract

Eugenol, a plant-derived component possessing small side effects, has an insecticidal activity to Tribolium castaneum; however, the underlying molecular mechanisms of eugenol acting on T. castaneum are currently unclear. Here, a nerve conduction carboxylesterase and a detoxifying glutathione S-transferase were significantly inhibited after eugenol exposure, resulting in the paralysis or death of beetles. Then, RNA-sequencing of eugenol-exposed and control samples identified 362 differentially expressed genes (DEGs), containing 206 up-regulated and 156 down-regulated genes. RNA-seq data were validated further by qRT-PCR. GO analysis revealed that DEGs were associated with 1308 GO terms of which the most enriched GO terms were catalytic activity, and integral component of membrane; KEGG pathway analysis showed that these DEGs were distributed in 151 different pathways, of which some pathways associated with metabolism of xenobiotics or drug were significantly enriched, which indicated that eugenol most likely disturbed the processes of metabolism, and detoxication. Moreover, several DEGs including Hexokinase type 2, Isocitrate dehydrogenase, and Cytochrome b-related protein, might participate in the respiratory metabolism of eugenol-exposed beetles. Some DEGs encoding CYP, UGT, GST, OBP, CSP, and ABC transporter were involved in the xenobiotic or drug metabolism pathway, which suggested that these genes of T. castaneum participated in the response to eugenol exposure. Additionally, TcOBPC11/ TcGSTs7, detected by qRT-PCR and RNA-interference against these genes, significantly increased the mortality of eugenol-treated T. castaneum, providing further evidence for the involvement of OBP/GST in eugenol metabolic detoxification in T. castaneum. These results aid eugenol insecticidal mechanisms and provide the basis of insect control. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
16174615
Volume :
297
Issue :
3
Database :
Complementary Index
Journal :
Molecular Genetics & Genomics
Publication Type :
Academic Journal
Accession number :
157056412
Full Text :
https://doi.org/10.1007/s00438-022-01890-6