用于生物大分子分析的电离技术的开发与表征:液体基质辅助激光解吸电喷雾电离
Development and characterization of an ionization technique for analysis of biological macromolecules: liquid matrix-assisted laser desorption electrospray ionization.
作者信息
Sampson Jason S, Hawkridge Adam M, Muddiman David C
机构信息
W.M. Keck FT-ICR Mass Spectrometry Laboratory, Department of Chemistry, North Carolina State University, Raleigh, North Carolina 27695, USA.
出版信息
Anal Chem. 2008 Sep 1;80(17):6773-8. doi: 10.1021/ac8001935. Epub 2008 Jul 26.
Abstract
We have developed an atmospheric pressure ionization technique called liquid matrix-assisted laser desorption electrospray ionization (liq-MALDESI) for the generation of multiply charged ions by laser desorption from liquid samples deposited onto a stainless steel sample target biased at a high potential. This variant of our previously reported MALDESI source does not utilize an ESI emitter to postionize neutrals. Conversely, we report desorption and ionization from a macroscopic charged droplet. We demonstrate high mass resolving power single-acquisition FT-ICR-MS analysis of peptides and proteins ranging from 1 to 8.6 kDa at atmospheric pressure. The liquid sample acts as a macroscopic charged droplet similar to those generated by electrospray ionization, whereby laser irradiation desorbs analyte from organic matrix containing charged droplets generating multiply charged ions. We have observed a singly charged radical cation of an electrochemically active species indicating oxidation occurs for analytes and therefore water; the latter would play a key role in the mechanism of ionization. Moreover, we demonstrate an increase in ion abundance and a concurrent decrease in surface tension with an increase in the applied potential.
摘要
我们开发了一种大气压电离技术,称为液体基质辅助激光解吸电喷雾电离(liq-MALDESI),用于通过激光解吸沉积在高电位偏置的不锈钢样品靶上的液体样品来产生多电荷离子。我们之前报道的MALDESI源的这种变体不使用电喷雾电离发射器对中性物质进行二次电离。相反,我们报道了从宏观带电液滴进行的解吸和电离。我们展示了在大气压下对1至8.6 kDa范围内的肽和蛋白质进行高质量分辨能力的单采集傅里叶变换离子回旋共振质谱(FT-ICR-MS)分析。液体样品充当类似于电喷雾电离产生的宏观带电液滴,通过激光照射从含有带电液滴的有机基质中解吸分析物,从而产生多电荷离子。我们观察到一种电化学活性物质的单电荷自由基阳离子,表明分析物以及水发生了氧化;后者在电离机制中起关键作用。此外,我们证明随着施加电位的增加,离子丰度增加且表面张力同时降低。
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