通过电子转移解离形成的大量c型肽片段离子的光谱表征表明酰胺异构体的唯一形成。

Spectroscopic Characterization of an Extensive Set of c-Type Peptide Fragment Ions Formed by Electron Transfer Dissociation Suggests Exclusive Formation of Amide Isomers.

作者信息

Kempkes Lisanne J M, Martens Jonathan, Berden Giel, Oomens Jos

机构信息

FELIX Laboratory, Institute for Molecules and Materials , Radboud University , Toernooiveld 7 , 6525 ED Nijmegen , The Netherlands.

Van't Hoff Institute for Molecular Sciences , University of Amsterdam , Science Park 904 , 1098 XH Amsterdam , The Netherlands.

出版信息

J Phys Chem Lett. 2018 Nov 15;9(22):6404-6411. doi: 10.1021/acs.jpclett.8b02850. Epub 2018 Oct 26.

DOI:10.1021/acs.jpclett.8b02850

PMID:30343579

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6240889/

Abstract

Electron attachment dissociation (electron capture dissociation (ECD) and electron transfer dissociation (ETD)) applied to gaseous multiply protonated peptides leads predominantly to backbone N-C bond cleavages and the formation of c- and z-type fragment ions. The mechanisms involved in the formation of these ions have been the subject of much discussion. Here, we determine the molecular structures of an extensive set of c-type ions produced by ETD using infrared ion spectroscopy. Nine c- and c-ions are investigated to establish their C-terminal structure as either enol-imine or amide isomers by comparison of the experimental infrared spectra with quantum-chemically predicted spectra for both structural variants. The spectra suggest that all c-ions investigated possess an amide structure; the absence of the NH bending mode at approximately 1000-1200 cm serves as an important diagnostic feature.

摘要

应用于气态多质子化肽的电子附着解离（电子捕获解离（ECD）和电子转移解离（ETD））主要导致主链N-C键断裂并形成c型和z型碎片离子。这些离子形成过程中涉及的机制一直是众多讨论的主题。在此，我们使用红外离子光谱法确定了由ETD产生的大量c型离子的分子结构。通过将实验红外光谱与两种结构变体的量子化学预测光谱进行比较，研究了九个c型和c型离子，以确定它们的C端结构是烯醇-亚胺异构体还是酰胺异构体。光谱表明，所有研究的c型离子都具有酰胺结构；在约1000 - 1200 cm处不存在NH弯曲模式是一个重要的诊断特征。

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通过电子转移解离形成的大量c型肽片段离子的光谱表征表明酰胺异构体的唯一形成。

Spectroscopic Characterization of an Extensive Set of c-Type Peptide Fragment Ions Formed by Electron Transfer Dissociation Suggests Exclusive Formation of Amide Isomers.

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