通过差分式迁移率光谱法分离唾液酸化聚糖异构体。

Separation of Sialylated Glycan Isomers by Differential Mobility Spectrometry.

机构信息

SCIEX , Phoenix House, Centre Park , Warrington WA1 1RX , United Kingdom.

Allergan Biologics Limited , 12 Estuary Banks , Speke, Liverpool L24 8RB , United Kingdom.

出版信息

Anal Chem. 2019 Aug 6;91(15):9916-9924. doi: 10.1021/acs.analchem.9b01595. Epub 2019 Jul 8.

DOI:10.1021/acs.analchem.9b01595

PMID:31283185

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6686149/

Abstract

Mass spectrometry has proven itself to be an important technology for characterizing intact glycoproteins, glycopeptides, and released glycans. However, these molecules often present significant challenges during analysis. For example, glycans of identical molecular weights can be present in many isomeric forms, with one form having dramatically more biological activity than the others. Discriminating among these isomeric forms using mass spectrometry alone can be daunting, which is why orthogonal techniques, such as ion mobility spectrometry, have been explored. Here, we demonstrate the use of differential mobility spectrometry (DMS) to separate isomeric glycans differing only in the linkages of sialic acid groups (e.g., α 2,3 versus α 2,6). This ability extends from a small trisaccharide species to larger biantennary systems and is driven, in part, by the role of intramolecular solvation of the charge site(s) on these ions within the DMS environment.

摘要

质谱已被证明是一种用于鉴定完整糖蛋白、糖肽和释放聚糖的重要技术。然而，这些分子在分析过程中常常带来重大挑战。例如，分子量相同的聚糖可能存在多种同分异构体形式，其中一种形式的生物活性远远超过其他形式。仅使用质谱来区分这些同分异构体可能具有挑战性，这就是为什么探索了离子淌度谱等正交技术的原因。在这里，我们展示了使用差分迁移谱（DMS）来分离仅在唾液酸基团连接方式上（例如，α 2,3 与 α 2,6）不同的同分异构体聚糖的能力。这种能力从一个小的三糖物种扩展到更大的双天线系统，部分原因是这些离子在 DMS 环境中电荷部位的分子内溶剂化作用所致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d16f/6686149/23d3443afc21/ac-2019-01595u_0001.jpg

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通过差分式迁移率光谱法分离唾液酸化聚糖异构体。

Separation of Sialylated Glycan Isomers by Differential Mobility Spectrometry.

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