5 results on '"Guo, Jian-Ying"'
Search Results
2. Characterization and Functional Analysis of OcomOBP7 in Ophraella communa Lesage.
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Yue, Yang, Ma, Chao, Zhang, Yan, Chen, Hong-Song, Guo, Jian-Ying, Liu, Ting-Hui, and Zhou, Zhong-Shi
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ODORANT-binding proteins , *OLFACTORY receptors , *BIOLOGICAL weed control , *BINDING site assay , *FUNCTIONAL analysis , *BIOLOGICAL pest control agents , *OLFACTORY perception - Abstract
Simple Summary: Ophraella communa Lesage is a specific biological control agent of the invasive weed Ambrosia artemisiifolia L. Understanding the molecular mechanism by which O. communa recognizes A. artemisiifolia will help improve its bio-control effect. Odorant-binding proteins (OBPs) play a vital role in insect olfactory perception. In this study, the sequence and expression characteristics of OcomOBP7 were analyzed. We obtained the pure protein of OcomOBP7 by prokaryotic expression and purification, and its binding characteristics were analyzed using a fluorescence competitive binding assay. Finally, we verified the function of OcomOBP7 in vivo using RNAi combined with an electroantennography (EAG) assay. The results showed that the binding ability of OcomOBP7 was broad-spectrum and was involved in the host plant localization of O. communa. The olfactory system plays a key role in various insect behaviors, and odorant-binding proteins participate in the first step of the olfactory process. Ophraella communa Lesage is an oligophagous phytophagous insect that is a specific biological control agent for Ambrosia artemisiifolia L. The leaf beetle must identify and locate A. artemisiifolia through olfaction; however, its odorant-binding protein (OBP) function has not yet been reported. In this study, OcomOBP7 was cloned, and its tissue expression profile and binding ability were analyzed using RT-qPCR and fluorescence binding assays, respectively. Sequence analysis demonstrated that OcomOBP7 belongs to the classical OBP family. The RT-qPCR results showed that OcomOBP7 was specifically expressed in the antennae, indicating that OcomOBP7 may be involved in chemical communication. The fluorescence binding assay showed that OcomOBP7 has an extensive binding ability to alkenes. The electroantennography experiments showed that O. communa antennal response to α-pinene and ocimene decreased significantly after interference because the two odors specifically bound to OcomOBP7. In summary, α-pinene and ocimene are odorant ligands corresponding to OcomOBP7, indicating that OcomOBP7 is involved in the chemical recognition of A. artemisiifolia. Our study lays a theoretical foundation for research into O. communa attractants, which is helpful for the better biological control of A. artemisiifolia by O. communa. [ABSTRACT FROM AUTHOR]
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- 2023
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3. Lycopene ameliorates atrazine-induced spatial learning and memory impairments by inhibiting ferroptosis in the hippocampus of mice.
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Zhu, Shi-Yong, Jiang, Jun-Ze, Lin, Jia, Liu, Lin, Guo, Jian-Ying, and Li, Jin-Long
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TROPANES , *LYCOPENE , *ATRAZINE , *SPATIAL memory , *MEMORY disorders , *TOXICITY testing , *POLLUTANTS , *HIPPOCAMPUS (Brain) - Abstract
Atrazine (ATR) is a commercially available herbicide that is used worldwide. The intensive use of ATR poses potential risks to animals' and humans' health. Lycopene (LYC) is an anti-oxidative phytochemical that normalizes health hazards triggered by environmental factors. In this study, we aimed to investigate the toxic effects of ATR on the hippocampus and its amelioration by LYC. Male mice were exposed to ATR (50 mg/kg/day or 200 mg/kg/d) and/or LYC (5 mg/kg/d) for 21 days. The results showed that ATR exposure induced hippocampus-dependent learning and memory impairments. ATR-induced ferroptosis in hippocampal cells affects the homeostasis of lipid metabolism, whereas LYC ameliorates the neurotoxic effects of ATR in the hippocampus. LYC inhibited ATR-induced ferroptosis by increasing the expression of HO-1, Nrf2 and SLC7A11. Therefore, this study established that LYC ameliorates ATR-induced spatial learning and memory impairments by inhibiting ferroptosis in the hippocampus and also provides a novel approach for the treatment in contradiction of environmental pollutants. ATR is a kind of herbicide that spreads throughout the environment. Because of its biological activity, particularly antioxidant properties, LYC has attracted a lot of interest. According to our findings, LYC ameliorates ATR-induced spatial learning and memory impairments by inhibiting ferroptosis in the hippocampus of mice. This research may lead to a plausible molecular mechanism for LYC therapy of ATR-induced neurological damage. [Display omitted] • ATR caused spatial learning and memory impairments. • ATR induced ferroptosis in the hippocampus. • LYC can prevent ferroptosis and promote nerve cell repair. • LYC mitigated ATR-induced spatial learning and memory impairments. [ABSTRACT FROM AUTHOR]
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- 2023
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4. Atrazine-induced oxidative damage via modulating xenobiotic-sensing nuclear receptors and cytochrome P450 systems in cerebrum and antagonism of lycopene.
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Dai, Xue-Yan, Lin, Jia, Zhu, Shi-Yong, Guo, Jian-Ying, Cui, Jia-Gen, and Li, Jin-Long
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LYCOPENE , *ATRAZINE , *CYTOCHROME P-450 , *POISONS , *TRANSCRIPTION factors , *OXIDATIVE stress , *DISTILLED water - Abstract
Atrazine (ATR) is a widely used herbicide with biologically toxic effects that can lead to neurotoxicity. Lycopene (LYC) is an antioxidant with chemoprotective properties. However, little know about the mechanisms of preventative interventions about LYC alleviated ATR-induced neurotoxicity. Male mice were treated with distilled water (C), 5 mg/kg BW/day LYC (L), 50 and 200 mg/kg BW/day ATR (A1, A2), respectively and LYC + ATR (A1+L, A2+L). ATR promoted oxidative stress and inflammatory damage, as showed by the effects on MDA, H 2 O 2 , IL-6 and TNF-α accumulation, and IL-10, SOD, CAT and GSH depletion, which caused neuronal swelling and mitochondrial vacuolar degeneration. ATR disrupted the CYP450s balance via increasing contents of CYP450 and cytochrome B5, enhancing activities of NCR and ERND and activating NXRs and NXRs-related transcription factors. However, all these effects were reversed by LYC pretreatment. Collectively, these data indicated that LYC inhibited ATR-induced oxidative damage through modulating xenobiotic-sensing nuclear receptors and CYP450s. [Display omitted] • LYC inhibits ATR exposure-induces neurotoxicity. • LYC alleviates ATR exposure-induces AHR/PXR/CAR pathway responses. • LYC alleviates ATR-induces the CYP450 homeostasis disorders and CYPs transcription. • LYC alleviates ATR exposure triggers oxidative stress and inflammatory response. [ABSTRACT FROM AUTHOR]
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- 2022
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5. Scanning Electron Microscopic Analysis of Antennal Sensilla and Tissue-Expression Profiles of Chemosensory Protein Genes in Ophraella communa (Coleoptera: Chrysomelidae).
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Ma, Chao, Yue, Yang, Zhang, Yan, Tian, Zhen-Ya, Chen, Hong-Song, Guo, Jian-Ying, and Zhou, Zhong-Shi
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CHEMOSENSORY proteins , *MICROSCOPY , *CHRYSOMELIDAE , *BEETLES , *PROTEIN expression - Abstract
Simple Summary: Leaf beetle Ophraella communa is considered an effective biocontrol agent against the common ragweed Ambrosia artemisiifolia. However, there are no studies that assess the antennal sensilla and chemosensory proteins expression profiles of O. communa. In this study, the types and morphology of sensilla on the antennae were examined by scanning electron microscopy (SEM). The results showed that there are six types of sensilla (sensilla trichodea, sensilla chaetica, sensilla basiconica, sensilla styloconica, sensilla coeloconica, and Böhm bristles) distributed on the antennae. We also found that the expression levels of five chemosensory proteins in male and female antennae were higher than those in other tissues by quantitative real-time polymerase chain reaction. Our results lay the foundation for interpreting the olfactory functions of adult O. communa. Ophraella communa is an efficient biocontrol agent used against the invasive weed Ambrosia artemisiifolia. It is an herbivorous insect that feeds on specific plants; the olfactory functions of this insects plays an important role in their search for host plants. There are no reports on O. communa sensilla types, morphology, or chemosensory protein (CSP) genes. In this study, we observed the external structure and distribution of antennal sensilla in adult O. communa antennae by scanning electron microscopy; moreover, we cloned 11 CSPs (CSP1–CSP11) and elucidated their tissue-expression profiles using quantitative real-time polymerase chain reaction. Six types of sensilla were identified: sensilla trichodea (including two subtypes), sensilla chaetica, sensilla basiconica (including two subtypes), sensilla styloconica, sensilla coeloconica, and Böhm bristles. Both male and female antennae had all six types of sensilla, and no sexual dimorphism was noted in sensillar types or distribution. We also found that the expression levels of CSP2, CSP3, CSP4, CSP6, and CSP7 in male and female antennae were higher than those in other tissues, which suggests that these five CSPs may be related to olfactory function in O. communa. Ultimately, our results lay the foundation for interpreting the olfactory functions of adult O. communa. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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