Evaluating the Performance of 193 nm Ultraviolet Photodissociation for Tandem Mass Tag Labeled Peptides

Analytica Pub Date : 2021-10-09 DOI:10.3390/analytica2040014

Mowei Zhou, Ju Yeon Lee, Gun Wook Park, Neha Malhan, Tao Liu, J. Shaw

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引用次数: 1

Abstract

Despite the successful application of tandem mass tags (TMT) for peptide quantitation, missing reporter ions in higher energy collisional dissociation (HCD) spectra remains a challenge for consistent quantitation, especially for peptides with labile post-translational modifications. Ultraviolet photodissociation (UVPD) is an alternative ion activation method shown to provide superior coverage for sequencing of peptides and intact proteins. Here, we optimized and evaluated 193 nm UVPD for the characterization of TMT-labeled model peptides, HeLa proteome, and N-glycopeptides from model proteins. UVPD yielded the same TMT reporter ions as HCD, at m/z 126–131. Additionally, UVPD produced a wide range of fragments that yielded more complete characterization of glycopeptides and less frequent missing TMT reporter ion channels, whereas HCD yielded a strong tradeoff between characterization and quantitation of TMT-labeled glycopeptides. However, the lower fragmentation efficiency of UVPD yielded fewer peptide identifications than HCD. Overall, 193 nm UVPD is a valuable tool that provides an alternative to HCD for the quantitation of large and highly modified peptides with labile PTMs. Continued development of instrumentation specific to UVPD will yield greater fragmentation efficiency and fulfil the potential of UVPD to be an all-in-one spectrum ion activation method for broad use in the field of proteomics.

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193nm紫外光解对串联质量标签多肽性能的评价

尽管串联质量标签(TMT)成功应用于肽定量，但高能碰撞解离(HCD)光谱中缺失的报告离子仍然是一致性定量的挑战，特别是对于具有不稳定翻译后修饰的肽。紫外光解离(UVPD)是一种替代的离子激活方法，为肽和完整蛋白质的测序提供了优越的覆盖范围。在这里，我们优化并评估了193 nm UVPD，用于表征tmt标记的模型肽，HeLa蛋白质组和模型蛋白的n -糖肽。UVPD产生与HCD相同的TMT报告离子，在m/z 126-131。此外，UVPD产生了广泛的片段，产生了更完整的糖肽表征和更少的TMT报告离子通道缺失，而HCD在表征和定量TMT标记的糖肽之间产生了很强的权衡。然而，UVPD的片段效率较低，产生的肽鉴定比HCD少。总的来说，193nm UVPD是一种有价值的工具，它提供了一种替代HCD的方法来定量具有不稳定PTMs的大的和高度修饰的肽。UVPD专用仪器的持续发展将产生更高的裂解效率，并实现UVPD在蛋白质组学领域广泛应用的一体化光谱离子激活方法的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Analytica

CiteScore

1.80

自引率

0.00%

发文量