傅里叶变换质谱中使用正交碎裂技术的蛋白质一级结构

Protein primary structure using orthogonal fragmentation techniques in Fourier transform mass spectrometry.

作者信息

Zubarev Roman

机构信息

Laboratory for Biological & Medical Mass Spectrometry, Uppsala University, Box 583, Uppsala S-751 23, Sweden.

出版信息

Expert Rev Proteomics. 2006 Apr;3(2):251-61. doi: 10.1586/14789450.3.2.251.

DOI:10.1586/14789450.3.2.251

PMID:16608437

Abstract

Proteomics analysis using tandem mass spectrometry requires informative backbone fragmentation of peptide ions. Collision-activated dissociation (CAD) of cations alone is not sufficiently informative to satisfy all requirements. Thus, there is a need to supplement CAD with a complementary fragmentation technique. Electron capture dissociation (ECD) is complementary to collisional excitation in terms of the cleavage of a different bond (N-Calpha versus C-N bond) and other properties. CAD-ECD combination improves protein identification and enables high-throughput de novo sequencing of peptides. ECD and its variants are also useful in mapping labile post-translational modifications in proteins and isomer differentiation; for example, distinguishing Ile from Leu, iso-Asp from Asp and even D- from L-amino acid residues.

摘要

使用串联质谱的蛋白质组学分析需要肽离子有信息丰富的主链断裂。仅阳离子的碰撞激活解离（CAD）提供的信息不足以满足所有要求。因此，需要用一种互补的断裂技术来补充CAD。电子捕获解离（ECD）在不同键的断裂（N-Cα键与C-N键）以及其他性质方面与碰撞激发互补。CAD-ECD联用可提高蛋白质鉴定能力，并能实现肽段的高通量从头测序。ECD及其变体在绘制蛋白质中不稳定的翻译后修饰图谱和异构体区分方面也很有用；例如，区分异亮氨酸与亮氨酸、异天冬氨酸与天冬氨酸，甚至区分D型与L型氨基酸残基。

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傅里叶变换质谱中使用正交碎裂技术的蛋白质一级结构

Protein primary structure using orthogonal fragmentation techniques in Fourier transform mass spectrometry.

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