生物正交化学
糖基化
化学
生物化学
聚糖
半乳糖凝集素
低聚糖
细胞
计算生物学
组合化学
生物
糖蛋白
点击化学
作者
Jingjing Hui,Lei Bao,Siqiao Li,Yi Zhang,Yimei Feng,Lin Ding,Huangxian Ju
标识
DOI:10.1002/anie.201703406
摘要
Abstract Live cell imaging of protein‐specific glycoforms is important for the elucidation of glycosylation mechanisms and identification of disease states. The currently used metabolic oligosaccharide engineering (MOE) technology permits routinely global chemical remodeling (GCM) for carbohydrate site of interest, but can exert unnecessary whole‐cell scale perturbation and generate unpredictable metabolic efficiency issue. A localized chemical remodeling (LCM) strategy for efficient and reliable access to protein‐specific glycoform information is reported. The proof‐of‐concept protocol developed for MUC1‐specific terminal galactose/ N ‐acetylgalactosamine (Gal/GalNAc) combines affinity binding, off‐on switchable catalytic activity, and proximity catalysis to create a reactive handle for bioorthogonal labeling and imaging. Noteworthy assay features associated with LCM as compared with MOE include minimum target cell perturbation, short reaction timeframe, effectiveness as a molecular ruler, and quantitative analysis capability.
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