化学
聚糖
体内
糖基化
唾液酸
细胞生物学
生物正交化学
原位
糖复合物
糖组
糖组学
内体
半乳糖氧化酶
生物化学
唾液酸酶
糖蛋白
生物物理学
外体
氨基酸
纳米技术
酪氨酸
微泡
跨膜蛋白
作者
Xiaocui Zheng,Wanqing Wei,Changjiang Wang,Yingdan Du,Jing Yang,Yao Zhou,Ying Liu,Yong Liang,Lijun Ding,Ran Xie
摘要
Precise control of cell-surface glycosylation remains challenging due to the dynamic and spatially complex nature of glycans. Here, we present GLOBE, a platform for optical regulation of glycoenzyme activity via site-specific incorporation of photocaged unnatural amino acids. Using galactose oxidase (GAO) as a model, o -nitrobenzyl-tyrosine (ONBY) installed at a proximal tyrosine suppresses activity until photoactivation, enabling rapid cell-surface glycan oxidation with micrometer-scale spatial and temporal resolution. Coupling GAO with MUC1-targeting aptamer produces binding-gated, protein-selective glycan oxidation, achieving precise control in mixed cellular populations. GLOBE is further extended to in situ suppression of a sialidase catalytic domain, and integrated into an orthogonal photoresponsive cascade, where sialic acid removal exposes substrates for subsequent GAO oxidation, enhancing labeling efficiency. Finally, upconversion nanoparticle-assisted photoactivation enables in vivo glycan editing in a murine tumor model, overcoming UV tissue penetration limits. Together, GLOBE provides a modular, spatiotemporally programmable framework for probing and manipulating dynamic glycosylation at single-cell and tissue levels, offering a versatile strategy to interrogate and engineer the complex sugar code underlying biological and pathological processes.
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