W.M. Keck FT-ICR Mass Spectrometry Laboratory, Department of Chemistry, North Carolina State University, Raleigh, North Carolina 27695, USA.
Anal Chem. 2010 Aug 1;82(15):6636-42. doi: 10.1021/ac101227a.
The analysis of N-linked glycans by mass spectrometry (MS) has been characterized by low signal-to-noise ratios and high limits of detection due to their hydrophilicity and lack of basic sites able to be protonated. As a result, every step in glycan sample preparation must be thoroughly optimized in order to minimize sample loss, contamination, and analytical variability. Importantly, properties of glycans and their derivatized counterparts must be thoroughly studied in order to exploit certain characteristics for enhancing MS analysis. Herein, the effectiveness of the incorporation of a permanent charge is studied and determined to hamper glycan analysis. Also, a procedure for glycan hydrazone formation is optimized and outlined where a large number of variables were simultaneously analyzed using a fractional factorial design (FFD) in order to determine which conditions affected the reaction efficiency of the hydrazone formation reaction. Finally, the hydrophobic tagging of glycans is shown to be a viable opportunity to further increase the ion abundance of glycans in MS.
采用质谱(MS)分析 N-连接聚糖的特点是信噪比较低,检测限较高,这是由于它们的亲水性和缺乏能够质子化的碱性位点。因此,为了最大限度地减少样品损失、污染和分析变异性,必须对聚糖样品制备的每一步进行彻底优化。重要的是,必须深入研究聚糖及其衍生化对应物的性质,以便利用某些特性来增强 MS 分析。本文研究了引入永久电荷的效果,结果表明该方法会干扰聚糖分析。此外,还优化并概述了聚糖腙形成的程序,其中使用部分因子设计(FFD)同时分析了大量变量,以确定哪些条件会影响腙形成反应的反应效率。最后,展示了聚糖的疏水标记是进一步增加 MS 中聚糖离子丰度的可行机会。