SCIEX , 71 Four Valley Drive, Concord, Ontario L4K 4V8, Canada.
SCIEX , 1201 Radio Road, Redwood Shores, California 64065, United States.
Anal Chem. 2017 Jul 18;89(14):7307-7315. doi: 10.1021/acs.analchem.6b04734. Epub 2017 Jun 28.
We present a mass spectrometry-based method for the identification of cis and trans double-bond isomers within intact complex lipid mixtures using electron impact excitation of ions from organics (EIEIO) mass spectrometry. EIEIO involves irradiating singly charged lipid ions with electrons having kinetic energies of 5-16 eV. The resulting EIEIO spectra can be used to discern cis and trans double-bond isomers by virtue of the differences in the fragmentation patterns at the carbon-carbon single bonds neighboring the double bonds. For trans double bonds, these characteristic fragments include unique closed-shell and open-shell (radical) products. To explain this fragmentation pattern in trans double bonds, we have proposed a reaction mechanism involving excitation of the double bond's π electrons followed by hydrogen atom rearrangement. Several lipid standards were analyzed using the EIEIO method, including mixtures of these standards. Prior to EIEIO, some of the lipid species in these mixtures were separated from their isomeric forms by using differential mobility spectrometry (DMS). For example, mixed cis and trans forms of triacylglycerols and phosphatidylcholines were identified by this DMS-EIEIO workflow. With this combined gas-phase separation and subsequent fragmentation, we could eliminate the need for authentic standards for identification. When DMS could not separate cis and trans isomers completely, as was the case with sphingomyelins, we relied upon the aforementioned diagnostic EIEIO fragment peaks to determine the relative contribution of the trans double-bond isomer in the mixed samples. We also applied the DMS-EIEIO methodology to natural samples extracted from a ruminant (bovine), which serve as common origins of trans fatty acids in a typical Western diet that includes dairy products.
我们提出了一种基于质谱的方法,用于通过电子冲击激发有机物中的离子(EIEIO)质谱法鉴定完整复杂脂质混合物中的顺式和反式双键异构体。EIEIO 涉及用具有 5-16 eV 动能的电子辐照单电荷脂质离子。所得 EIEIO 光谱可用于通过双键相邻的碳-碳单键处的碎裂模式的差异来辨别顺式和反式双键异构体。对于反式双键,这些特征碎片包括独特的闭壳和开壳(自由基)产物。为了解释反式双键中的这种碎裂模式,我们提出了一种涉及双键的π电子激发以及随后的氢原子重排的反应机制。使用 EIEIO 方法分析了几种脂质标准品,包括这些标准品的混合物。在进行 EIEIO 之前,使用差分迁移谱(DMS)将这些混合物中的一些脂质物质与其异构体形式分离。例如,通过这种 DMS-EIEIO 工作流程,可以鉴定三酰基甘油和磷脂的混合顺式和反式形式。通过这种组合的气相分离和随后的碎裂,可以消除对鉴定所需的纯标准品的需求。当 DMS 不能完全分离顺式和反式异构体时,就像鞘磷脂一样,我们依赖于上述诊断性 EIEIO 碎片峰来确定混合样品中反式双键异构体的相对贡献。我们还将 DMS-EIEIO 方法应用于从反刍动物(牛)提取的天然样品,这些样品是典型西方饮食中包括乳制品在内的反式脂肪酸的常见来源。
