Elucidating the Fragmentation Mechanism of Protonated Lewis A Trisaccharide using MSn CID.

IF 1.1 4区 化学 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL European Journal of Mass Spectrometry Pub Date : 2021-12-01 Epub Date: 2021-12-24 DOI:10.1177/14690667211069033
Volker Iwan, Jürgen Grotemeyer
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Abstract

Lewis blood group antigens are a prominent example of isomeric oligosaccharides with biological activity. Understanding the fragmentation mechanism in the gas phase is essential for their identification and assignment by mass spectrometric methods such as ESI-MS. In this work, the [M + H]+ species of Lewis A trisaccharide and Lewis A trisaccharide methyl glycoside were studied by ESI-MS with FT-ICR as mass analyzer with respect to their fragmentation mechanism. The comparison between the underivatized and the methylated species has shown that the reducing end plays a key role in this mechanism. The results of this study question the existence of Z-type fragment ions after activation of the protonated species. The main product of the fragmentation are Y-type fragment ions and a combination of Y-type fragmentation and the loss of water at the reducing end instead of Z-type fragmentation. C-type fragment ions could not be detected. MS3 measurements also reveal that each fragment ion only occurs with the participation of a mobile proton and the possibility of glycosidic bond cleavage after fragmentation has already occurred at the reducing end as B2 fragment ion.

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用MSn CID研究质子化路易斯A三糖的断裂机理。
刘易斯血型抗原是具有生物活性的寡糖异构体的一个突出例子。了解气相中的破碎机制对于质谱方法(如ESI-MS)的鉴定和分配至关重要。本文采用ESI-MS, FT-ICR作为质谱分析仪,研究了Lewis A三糖和Lewis A三糖甲基糖苷的[M + H]+组分的断裂机理。未甲基化和未甲基化物种的比较表明,还原端在这一机制中起着关键作用。本研究的结果对质子化后的z型片段离子的存在提出了质疑。破碎的主要产物是y型破碎离子,并不是z型破碎,而是y型破碎与还原端失水的结合。无法检测到c型碎片离子。MS3测量还显示,每个片段离子只有在一个移动质子的参与下才会出现,并且在还原端作为B2片段离子已经发生碎片化后,糖苷键可能会被劈裂。
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来源期刊
CiteScore
2.40
自引率
7.70%
发文量
16
审稿时长
>12 weeks
期刊介绍: JMS - European Journal of Mass Spectrometry, is a peer-reviewed journal, devoted to the publication of innovative research in mass spectrometry. Articles in the journal come from proteomics, metabolomics, petroleomics and other areas developing under the umbrella of the “omic revolution”.
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