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W4280494958 endingPage "150" @default.
W4280494958 startingPage "138" @default.
W4280494958 abstract "The tea plant (Camellia sinensis) is one of the three major beverage crops in the world with its leaves consumption as tea. However, it can hyperaccumulate fluoride with about 98% fluoride deposition in the leaves. Our previously studies found that cell wall proteins (CWPs) might play a central role in fluoride accumulation/detoxification in C. sinensis. CWP is known to be glycosylated, however the response of CWP N-glycosylation to fluoride remains unknown in C. sinensis. In this study, a comparative N-glycoproteomic analysis was performed through HILIC enrichment coupled with UPLC-MS/MS based on TMT-labeling approach in C. sinensis leaves. Totally, 237 N-glycoproteins containing 326 unique N-glycosites were identified. 73.4%, 18.6%, 6.3% and 1.7% of these proteins possess 1, 2, 3, and ≥4 modification site, respectively. 93.2% of these proteins were predicted to be localized in the secretory pathway and 78.9% of them were targeted to the cell wall and the plasma membrane. 133 differentially accumulated N-glycosites (DNGSs) on 100 N-glycoproteins (DNGPs) were detected and 85.0% of them exhibited upregulated expression after fluoride treatment. 78.0% DNGPs were extracellular DNGPs, which belonged to CWPs, and 53.0% of them were grouped into protein acting on cell wall polysaccharides, proteases and oxido-reductases, whereas the majority of the remaining DNGPs were mainly related to N-glycoprotein biosynthesis, trafficking and quality control. Our study shed new light on the N-glycoproteome study, and revealed that increased N-glycosylation abundance of CWPs might contribute to fluoride accumulation/detoxification in C. sinensis leave." @default.
W4280494958 created "2022-05-22" @default.
W4280494958 creator A5012992534 @default.
W4280494958 creator A5020229936 @default.
W4280494958 creator A5047989462 @default.
W4280494958 creator A5062337245 @default.
W4280494958 date "2022-07-01" @default.
W4280494958 modified "2023-10-16" @default.
W4280494958 title "Upregulation of protein N-glycosylation plays crucial roles in the response of Camellia sinensis leaves to fluoride" @default.
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W4280494958 doi "https://doi.org/10.1016/j.plaphy.2022.05.009" @default.
W4280494958 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35597102" @default.
W4280494958 hasPublicationYear "2022" @default.
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