Vrkoslav Vladimír, Rumlová Barbora, Strmeň Timotej, Nekvasilová Pavlína, Šulc Miloslav, Cvačka Josef
Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences, Flemingovo nám. 2, CZ-166 10, Prague 6, Czech Republic.
Department of Analytical Chemistry, Faculty of Science, Charles University in Prague, Hlavova 2030/8, CZ-128 43, Prague 2, Czech Republic.
Rapid Commun Mass Spectrom. 2018 Apr 30;32(8):639-648. doi: 10.1002/rcm.8086.
Mass spectrometry with atmospheric pressure chemical ionization (APCI) or photoionization (APPI) is widely used for neutral lipids involved in many fundamental processes in living organisms. Commercial APCI and APPI sources operate at high flow rates compatible with conventional high-performance liquid chromatography (HPLC). However, lipid analysis is often limited by a small amount of sample, which requires low flow rate separations like capillary or micro-HPLC. Therefore, APCI and APPI suitable for microliter-per-minute flow rates need to be developed and applied for neutral lipids.
A micro-APCI/APPI source with a heated chip nebulizer was assembled and mounted on a Thermo ion trap instrument. The ion source operated in APCI, APPI or dual mode was optimized for low microliter-per-minute sample flow rates. The source performance was investigated for squalene, wax esters, fatty acid methyl esters, triacylglycerols, and cholesterol.
The ion source behaved as a mass-flow-sensitive detector. Direct infusion of methyl oleate showed superior analytical figures of merit when compared with high-flow ion sources. A detection limit of 200 pmol/mL and a linear dynamic range spanning three orders of magnitude were measured for micro-APCI. The mass spectra of most lipids differed from high flow rate spectra. Unlike micro-APCI, micro-APPI spectra were complicated by odd-electron species. Dual APCI/APPI mode did not show any benefits for neutral lipids. Applications for lipid samples were demonstrated.
Micro-APCI-MS is a useful detection technique for neutral lipids at microliter-per-minute flow rates. It offers high sensitivity and high quality of spectra in direct infusion mode and promises successful utilization in capillary and micro-HPLC applications.
采用大气压化学电离(APCI)或光电离(APPI)的质谱分析法广泛应用于参与生物体许多基本过程的中性脂质分析。商业化的APCI和APPI源在与传统高效液相色谱(HPLC)兼容的高流速下运行。然而,脂质分析常常受到样品量少的限制,这就需要像毛细管或微HPLC那样的低流速分离。因此,需要开发适用于每分钟微升流速的APCI和APPI,并将其应用于中性脂质分析。
组装了一种带有加热芯片雾化器的微型APCI/APPI源,并将其安装在Thermo离子阱仪器上。该离子源在APCI、APPI或双模式下运行,针对每分钟微升的低样品流速进行了优化。研究了该源对角鲨烯、蜡酯、脂肪酸甲酯、三酰甘油和胆固醇的性能。
该离子源表现为一种质量流量敏感型检测器。与高流速离子源相比,直接进样油酸甲酯显示出更优异的分析性能指标。微型APCI的检测限为200 pmol/mL,线性动态范围跨越三个数量级。大多数脂质的质谱图与高流速质谱图不同。与微型APCI不同,微型APPI质谱图因奇电子物种而变得复杂。APCI/APPI双模式对中性脂质没有显示出任何优势。展示了其在脂质样品分析中的应用。
微型APCI-MS是一种用于每分钟微升流速下中性脂质分析的有用检测技术。它在直接进样模式下具有高灵敏度和高质量的光谱,并有望成功应用于毛细管和微HPLC分析中。
