An omega glutathione S-transferase in Apis mellifera contributes to chemical adaptation through pesticide sequestration and antioxidant defense
Koirala BK, S.; Moural, T. W.; Bhattarai, G.; Phan, N. T.; Rajottea, E. G.; Biddinger, D. J.; Zhu, F.
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The European honey bee (Apis mellifera L.) is a key agricultural pollinator frequently exposed to pesticide residues, yet the molecular basis of its chemical adaptation, particularly glutathione S-transferases (GSTs) involved in xenobiotic detoxification, remain incompletely understood. In this study, AmGSTO1 was structurally and functionally characterized to evaluate its role in agrochemical interaction and protection against oxidative stress. The crystal structure of AmGSTO1 in complex with glutathione revealed its 3D architecture and key active-site residues were identified by structural analysis and site-directed mutagenesis. Fluorescence binding assays demonstrated measurable affinity for multiple agrochemicals, including TCP, fenoprop, 2,4-D, tetramethrin, nicotine, and 3-phenoxybenzaldehyde. However, HPLC analysis showed no detectable substrate depletion, suggesting ligand binding to AmGSTO1 without catalytic turnover. AmGSTO1 exhibited antioxidant activity toward cumene hydroperoxide, hydrogen peroxide, and paraquat, as well as dehydroascorbate reductase activity. These findings indicate that AmGSTO1 may contribute to agrochemical tolerance through ligand sequestration and redox protection mechanisms.
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