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利用傅里叶变换质谱分析串联质谱,提高大规模蛋白质组学的蛋白质定量分析水平。

Analysis of tandem mass spectra by FTMS for improved large-scale proteomics with superior protein quantification.

机构信息

Department of Chemistry, University of Wisconsin, Madison, Wisconsin 53706, USA.

出版信息

Anal Chem. 2010 Jan 1;82(1):316-22. doi: 10.1021/ac902005s.

DOI:10.1021/ac902005s
PMID:19938823
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2800853/
Abstract

Using a newly developed dual-cell quadrupole linear ion trap-orbitrap hybrid mass spectrometer (dcQLT-orbitrap), we demonstrate the utility of collecting high-resolution tandem mass spectral data for large-scale shotgun proteomics. Multiple nanoLC-MS/MS experiments on both an older generation quadrupole linear ion trap-orbitrap hybrid (QLT-orbitrap) and the dcQLT-orbitrap, using both resonant-excitation CAD and beam-type CAD (HCD), were performed. Resulting from various technological advances (e.g., a stacked ring ion guide AP inlet, a dual cell QLT), the dcQLT-orbitrap exhibited increased duty cycle (approximately 1.5-2 times) and sensitivity for both CAD (ion trap detection) and HCD (orbitrap detection) methods. As compared to the older system, the dcQLT-orbitrap produced significantly more unique peptide identifications for both methods (approximately 30% improvement for CAD and approximately 115% improvement for HCD). The sizable improvement of the HCD method on the dcQLT-orbitrap system outperforms the current standard method of CAD with ion trap detection for large-scale analysis. Finally, we demonstrate that the increased HCD performance translates to a direct and substantial improvement in protein quantitation precision using isobaric tags.

摘要

利用新开发的双细胞四极杆线性离子阱-轨道阱混合质谱仪 (dcQLT-orbitrap),我们展示了为大规模鸟枪法蛋白质组学收集高分辨率串联质谱数据的实用性。在旧代四极杆线性离子阱-轨道阱混合 (QLT-orbitrap) 和 dcQLT-orbitrap 上进行了多次纳升液相色谱-质谱/质谱 (nanoLC-MS/MS) 实验,同时使用共振激发 CAD 和束型 CAD (HCD)。由于各种技术进步(例如堆叠环离子导向 AP 入口、双细胞 QLT),dcQLT-orbitrap 显示出对 CAD(离子阱检测)和 HCD(轨道阱检测)方法的更高的占空比(约 1.5-2 倍)和灵敏度。与旧系统相比,dcQLT-orbitrap 为两种方法产生了更多的独特肽鉴定(CAD 约提高 30%,HCD 约提高 115%)。dcQLT-orbitrap 上 HCD 方法的显著改进优于当前带有离子阱检测的 CAD 标准方法,用于大规模分析。最后,我们证明,增加的 HCD 性能可直接且显著提高使用等压标记的蛋白质定量精度。

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