三维四极杆离子阱中多肽的电子捕获解离：实施与初步结果

Electron capture dissociation of polypeptides in a three-dimensional quadrupole ion trap: Implementation and first results.

作者信息

Silivra Oleg A, Kjeldsen Frank, Ivonin Igor A, Zubarev Roman A

机构信息

Laboratory for Biological and Medical Mass Spectrometry, Uppsala University, Uppsala, Sweden.

出版信息

J Am Soc Mass Spectrom. 2005 Jan;16(1):22-7. doi: 10.1016/j.jasms.2004.09.015.

DOI:10.1016/j.jasms.2004.09.015

PMID:15653360

Abstract

The adverse influence of the radio frequency (RF) voltage on electrons has been the main obstacle for the implementation of electron capture dissociation (ECD) in three-dimensional quadrupole ion traps (3D QITs). Here we demonstrate that the use of axial magnetic field, together with the injection of low-energy (<5 eV) electrons, in the beginning of the positive RF semi-period achieves trapping of electrons for a period of time comparable with the semi-period duration. Importantly, the energy of the electrons remains low during most of the trapping period. With this technique, which we call "magnetized electrons, in-phase injection" (MEPhI), ECD and other ion-electron reactions have become possible in a 3D QIT. Initial ECD results, including single-scan data, were obtained with dications of Substance P. The observed secondary fragmentation of ECD fragments indicates that the trapped electrons are still somewhat hotter than desired.

摘要

射频（RF）电压对电子的不利影响一直是在三维四极离子阱（3D QITs）中实现电子捕获解离（ECD）的主要障碍。在此我们证明，在正RF半周期开始时，利用轴向磁场并注入低能量（<5 eV）电子，可使电子捕获一段时间，其时长与半周期持续时间相当。重要的是，在大部分捕获期间电子能量仍保持较低。通过这种我们称为“磁化电子同相注入”（MEPhI）的技术，在3D QIT中ECD及其他离子 - 电子反应成为可能。使用P物质的双电荷离子获得了包括单扫描数据在内的初始ECD结果。观察到的ECD碎片的二次碎裂表明，捕获的电子仍比预期略热。

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三维四极杆离子阱中多肽的电子捕获解离：实施与初步结果

Electron capture dissociation of polypeptides in a three-dimensional quadrupole ion trap: Implementation and first results.

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