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通过 SimpleCell 技术对人类 O-糖基化蛋白质组进行精确定位。

Precision mapping of the human O-GalNAc glycoproteome through SimpleCell technology.

机构信息

Copenhagen Center for Glycomics, Department of Cellular and Molecular Medicine and School of Dentistry, University of Copenhagen, Copenhagen N, Denmark.

出版信息

EMBO J. 2013 May 15;32(10):1478-88. doi: 10.1038/emboj.2013.79. Epub 2013 Apr 12.

DOI:10.1038/emboj.2013.79
PMID:23584533
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3655468/
Abstract

Glycosylation is the most abundant and diverse posttranslational modification of proteins. While several types of glycosylation can be predicted by the protein sequence context, and substantial knowledge of these glycoproteomes is available, our knowledge of the GalNAc-type O-glycosylation is highly limited. This type of glycosylation is unique in being regulated by 20 polypeptide GalNAc-transferases attaching the initiating GalNAc monosaccharides to Ser and Thr (and likely some Tyr) residues. We have developed a genetic engineering approach using human cell lines to simplify O-glycosylation (SimpleCells) that enables proteome-wide discovery of O-glycan sites using 'bottom-up' ETD-based mass spectrometric analysis. We implemented this on 12 human cell lines from different organs, and present a first map of the human O-glycoproteome with almost 3000 glycosites in over 600 O-glycoproteins as well as an improved NetOGlyc4.0 model for prediction of O-glycosylation. The finding of unique subsets of O-glycoproteins in each cell line provides evidence that the O-glycoproteome is differentially regulated and dynamic. The greatly expanded view of the O-glycoproteome should facilitate the exploration of how site-specific O-glycosylation regulates protein function.

摘要

糖基化是蛋白质最丰富和最多样化的翻译后修饰。虽然可以根据蛋白质序列上下文预测几种类型的糖基化,并且对这些糖蛋白组有大量的了解,但我们对 GalNAc 型 O-糖基化的了解非常有限。这种糖基化的独特之处在于受 20 种多肽 GalNAc 转移酶的调控,这些转移酶将起始 GalNAc 单糖连接到 Ser 和 Thr(可能还有一些 Tyr)残基上。我们开发了一种使用人细胞系的基因工程方法来简化 O-糖基化(SimpleCells),从而能够使用“自上而下”的基于 ETD 的质谱分析在蛋白质组范围内发现 O-聚糖位点。我们在来自不同器官的 12 个人类细胞系上实施了这一方法,并展示了人类 O-糖蛋白组的第一张图谱,其中超过 600 种 O-糖蛋白中有近 3000 个糖基化位点,以及改进的 NetOGlyc4.0 模型用于预测 O-糖基化。在每种细胞系中发现独特的 O-糖蛋白亚群的证据表明,O-糖蛋白组是差异调节和动态的。O-糖蛋白组的极大扩展视图应该有助于探索特定位置的 O-糖基化如何调节蛋白质功能。

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Enhanced mass spectrometric mapping of the human GalNAc-type O-glycoproteome with SimpleCells.使用 SimpleCells 增强人类 GalNAc 型 O-糖蛋白组的质谱图谱分析。
Mol Cell Proteomics. 2013 Apr;12(4):932-44. doi: 10.1074/mcp.O112.021972. Epub 2013 Feb 11.
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Mucin-type O-glycosylation during development.在发育过程中黏蛋白型 O-糖基化。
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