Christina M. Woo, Carolyn R. Bertozzi
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引用次数: 15
Abstract
Protein glycosylation plays many critical roles in biological function and creates the most diversity of all post-translational modifications (PTMs). Glycan structural diversity is directly correlated with difficulty in characterizing the intact glycoproteome by mass spectrometry (MS). In this protocol, we describe a novel mass-independent chemical glycoproteomics platform for characterizing intact, metabolically labeled glycopeptides from complex proteomes, termed Isotope Targeted Glycoproteomics (IsoTaG). To use IsoTaG, cell culture samples are metabolically labeled with an azido- or alkynyl-sugar. Metabolically labeled glycoproteins are then tagged using Click chemistry and enriched with an isotopic recoding biotin probe. Intact glycopeptides are recovered by cleavage of the probe, analyzed with directed MS, and assigned by targeted mass-independent data analysis. The outlined procedure is well defined in cell culture and has been executed with over 15 cell lines. © 2016 by John Wiley & Sons, Inc.
同位素靶向糖蛋白组学(IsoTaG)表征复杂蛋白质组中完整的代谢标记糖肽
蛋白质糖基化在生物学功能中起着许多关键作用,并创造了所有翻译后修饰(PTMs)的多样性。聚糖结构多样性与质谱(MS)表征完整糖蛋白组的难度直接相关。在这个方案中,我们描述了一种新的质量无关的化学糖蛋白组学平台,用于表征复杂蛋白质组中完整的、代谢标记的糖肽,称为同位素靶向糖蛋白组学(IsoTaG)。为了使用IsoTaG,细胞培养样品用叠氮糖或炔基糖进行代谢标记。然后使用Click化学标记代谢标记的糖蛋白,并用同位素重新编码生物素探针进行富集。完整的糖肽通过探针切割回收,用定向质谱分析,并通过靶向质量无关的数据分析进行分配。概述的程序在细胞培养中有很好的定义,并已在超过15个细胞系中执行。©2016 by John Wiley &儿子,Inc。
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