采用毛细管振动锐边喷雾电离技术,可轻松改善负离子模式电喷雾电离。
Facile Improvement of Negative Ion Mode Electrospray Ionization Using Capillary Vibrating Sharp-Edge Spray Ionization.
机构信息
C. Eugene Bennett Department of Chemistry , West Virginia University , Morgantown , West Virginia , United States.
出版信息
Anal Chem. 2020 Feb 4;92(3):2492-2502. doi: 10.1021/acs.analchem.9b03983. Epub 2020 Jan 15.
Abstract
Electrospray ionization (ESI) is often affected by corona discharge when spraying 100% aqueous solutions as the voltage that induces discharge can be well below the onset voltage of ESI. As a result, it is especially challenging to perform native mass spectrometry in negative ion mode where 100% aqueous solution is preferred. Here we report a simple instrumentation method to improve the performance of ESI in negative ion mode based on capillary vibrating sharp-edge spray ionization. By attaching a fused silica capillary emitter to a vibrating glass slide, improved signal quality is achieved for various analytes in aqueous solutions over applying ESI alone. Compared to commercial ESI sources using nebulization gas to reduce discharge, 10-100-fold enhancement in signal intensity and 3-10-fold improvement in S/N are achieved for various kinds of molecules including DNA, peptides, proteins, and oligosaccharides. Finally, the new method demonstrates utility for native mass spectrometry analysis of proteins and G-quadruplex DNA. The present method is expected to have great potential to be adopted by the scientific community because of its improved analytical performance, simplicity, and low cost.
摘要
电喷雾电离(ESI)在喷雾 100%水溶液时经常受到电晕放电的影响,因为引起放电的电压可以远低于 ESI 的起始电压。因此,在负离子模式下进行天然质谱分析尤其具有挑战性,而在负离子模式下则更倾向于使用 100%水溶液。在这里,我们报告了一种简单的仪器方法,基于毛细管振动锐边喷雾电离来改善 ESI 在负离子模式下的性能。通过将熔融石英毛细管发射器连接到振动玻璃片上,与单独使用 ESI 相比,在水溶液中实现了各种分析物的信号质量的改善。与使用雾化气体来减少放电的商用 ESI 源相比,对于包括 DNA、肽、蛋白质和寡糖在内的各种分子,实现了 10-100 倍的信号强度增强和 3-10 倍的 S/N 提高。最后,该新方法证明了其在蛋白质和 G-四链体 DNA 的天然质谱分析中的实用性。由于其改善的分析性能、简单性和低成本,本方法有望被科学界广泛采用。
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