用于测定脂质中双键位置的行波高分辨率质谱仪上的臭氧诱导解离。

Ozone-induced dissociation on a traveling wave high-resolution mass spectrometer for determination of double-bond position in lipids.

作者信息

Vu Ngoc, Brown Jeffery, Giles Kevin, Zhang Qibin

机构信息

Department of Chemistry & Biochemistry, University of North Carolina at Greensboro, Greensboro, NC 27412, USA.

Waters Corporation, Wilmslow SK9 4AX, UK.

出版信息

Rapid Commun Mass Spectrom. 2017 Sep 15;31(17):1415-1423. doi: 10.1002/rcm.7920.

DOI:10.1002/rcm.7920

PMID:28590551

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5560992/

Abstract

RATIONALE

The position of C=C within fatty acyl chains affects the biological function of lipids. Ozone-induced dissociation mass spectrometry (OzID-MS) has great potential in determination of lipid double-bond position, but has generally been implemented on low-resolution ion trap mass spectrometers. In addition, most of the OzID-MS experiments carried out so far were focused on the sodiated adducts of lipids; fragmentation of the most commonly observed protonated ions generated in LC/MS-based lipidomics workflow has been less explored.

METHODS

Ozone generated in line from an ozone generator was connected to the trap and transfer gas supply line of a Synapt G2 high-resolution mass spectrometer. Protonated ions of different phosphatidylcholines (PC) were generated by electrospray ionization through direct infusion. Different parameters, including traveling wave height and velocity, trap entrance and DC potential, were adjusted to maximize the OzID efficiency. sn-positional isomers and cis/trans isomers of lipids were compared for their reactivity with ozone.

RESULTS

Traveling wave height and velocity were tuned to prolong the encounter time between lipid ions and ozone, and resulted in improved OzID efficiency, as did increasing trapping region DC and entrance potential. Under optimized settings, at least 1000 times enhancement in OzID efficiency was achieved compared to that under default settings for monounsaturated PC standards. Monounsaturated C=C in the sn-2 PC isomer reacted faster with ozone than the sn-1 isomer. Similarly, the C=C in trans PC reacted faster than in cis PC.

CONCLUSIONS

This is the first implementation of OzID in the trap and transfer region of a traveling wave enabled high-resolution mass spectrometer. The OzID reaction efficiency is significantly improved by slowing down ions in the trap region for their prolonged interaction with ozone. This will facilitate application of high-resolution OzID-MS in lipidomics.

摘要

原理

碳碳双键（C=C）在脂肪酰链中的位置会影响脂质的生物学功能。臭氧诱导解离质谱法（OzID-MS）在确定脂质双键位置方面具有巨大潜力，但通常是在低分辨率离子阱质谱仪上进行的。此外，迄今为止进行的大多数OzID-MS实验都集中在脂质的钠加合物上；对于基于液相色谱/质谱的脂质组学工作流程中产生的最常见质子化离子的碎片化研究较少。

方法

将臭氧发生器在线产生的臭氧连接到Synapt G2高分辨率质谱仪的阱和传输气体供应线上。通过直接进样电喷雾电离产生不同磷脂酰胆碱（PC）的质子化离子。调整不同参数，包括行波高度和速度、阱入口和直流电势，以最大化OzID效率。比较脂质的sn-位置异构体和顺式/反式异构体与臭氧的反应性。

结果

调整行波高度和速度以延长脂质离子与臭氧的相遇时间，从而提高了OzID效率，增加阱区直流电势和入口电势也有同样效果。在优化设置下，与单不饱和PC标准品的默认设置相比，OzID效率提高了至少1000倍。sn-2 PC异构体中的单不饱和C=C与臭氧的反应比sn-1异构体更快。同样，反式PC中的C=C比顺式PC中的反应更快。

结论

这是OzID在具有行波功能的高分辨率质谱仪的阱和传输区域中的首次应用实现。通过在阱区减慢离子速度以延长其与臭氧的相互作用时间，OzID反应效率得到显著提高。这将促进高分辨率OzID-MS在脂质组学中的应用。

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