在线分离结合质谱用于糖胺聚糖分析。

On-line separations combined with MS for analysis of glycosaminoglycans.

作者信息

Zaia Joseph

机构信息

Department of Biochemistry, Center for Biomedical Mass Spectrometry, Mass Spectrometry Resource, Boston University School of Medicine, Boston, MA 02118, USA.

出版信息

Mass Spectrom Rev. 2009 Mar-Apr;28(2):254-72. doi: 10.1002/mas.20200.

DOI:10.1002/mas.20200

PMID:18956477

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4119066/

Abstract

The glycosaminoglycan (GAG) family of polysaccharides includes the unsulfated hyaluronan and the sulfated heparin, heparan sulfate, keratan sulfate, and chondroitin/dermatan sulfate. GAGs are biosynthesized by a series of enzymes, the activities of which are controlled by complex factors. Animal cells alter their responses to different growth conditions by changing the structures of GAGs expressed on their cell surfaces and in extracellular matrices. Because this variation is a means whereby the functions of the limited number of protein gene products in animal genomes is elaborated, the phenotypic and functional assessment of GAG structures expressed spatially and temporally is an important goal in glycomics. On-line mass spectrometric separations are essential for successful determination of expression patterns for the GAG compound classes due to their inherent complexity and heterogeneity. Options include size exclusion, anion exchange, reversed phase, reversed phase ion pairing, hydrophilic interaction, and graphitized carbon chromatographic modes and capillary electrophoresis. This review summarizes the application of these approaches to on-line MS analysis of the GAG classes.

摘要

多糖的糖胺聚糖（GAG）家族包括非硫酸化的透明质酸和硫酸化的肝素、硫酸乙酰肝素、硫酸角质素以及硫酸软骨素/硫酸皮肤素。GAG由一系列酶生物合成，这些酶的活性受复杂因素控制。动物细胞通过改变其细胞表面和细胞外基质中表达的GAG结构来改变对不同生长条件的反应。由于这种变化是一种阐述动物基因组中有限数量蛋白质基因产物功能的方式，因此对在空间和时间上表达的GAG结构进行表型和功能评估是糖组学的一个重要目标。由于GAG化合物类别的固有复杂性和异质性，在线质谱分离对于成功测定其表达模式至关重要。可选的方法包括尺寸排阻、阴离子交换、反相、反相离子对、亲水相互作用、石墨化碳色谱模式和毛细管电泳。本文综述了这些方法在GAG类别的在线质谱分析中的应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/01f5/4119066/82697380744f/nihms-616023-f0001.jpg

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