Tang Hui-Ting, Jiang Jun, Cao Yan, Guan Peng-Wei, Li Han, Zhao Yi-Jia, Yu Juan, Tu Peng-Fei, Li Jun, Song Yue-Lin
Modern Research Center for Traditional Chinese Medicine,School of Chinese Materia Medica,Beijing University of Chinese Medicine Beijing 100029,China.
Shandong Institute for Food and Drug Control Ji'nan 250100,China.
Zhongguo Zhong Yao Za Zhi. 2021 Jul;46(14):3599-3604. doi: 10.19540/j.cnki.cjcmm.20210302.301.
Isomers are widely distributed in Chinese herbal medicines,and can be discriminated by energy-resolved mass spectrometry( ER-MS). However,ER-MS was performed through direct injection of reference compounds with syringe pump,which encountered a significant technical barrier for high-throughput and automated measurements. Herein,online ER-MS was conducted using LC-MS platform,and a pair of isomers,kaempferol vs luteolin,were employed as a case study to illustrate and assess the utility of online ER-MS for isomeric discrimination. High-resolution tandem mass spectrometry data of both flavonoids were acquired on LC-QE-Orbitrap-MS,and the fragmentation pathways responsible for the primary fragment ions were proposed. The primary signal in MS1 occurred at m/z 285( [M-H]-),and the primary signals of either compound generated by retro-Diels-Alder fragmentation were observed at m/z 151 and 133. The spectral information was subsequently transferred onto LC-Qtrap-MS platform to carry out online ER-MS. Two precursor-to-product ion transition candidates were constructed as m/z 285>151 and 285>133,and either afterward derived a set of pseudo-ion transitions( PITs) and so forth,exactly corresponding to a series of progressive collision energies( eg-5,-8,-11 e V,and so on). All PITs were typed into the monitoring list of multiple reaction monitoring program to generate the peak area datasets. Either dataset was normalized using the highest values in the set and imported into Graph Pad Prism software to plot the Gaus-sian-shaped curve that was termed as the break-down graph. The apex of the regressive curve was termed as optimal collision energy( OCE). The OCE values corresponding to m/z 285>151 were calculated as-29. 06 e V and-35. 71 e V for kaempferol and luteolin,respectively. In the case of m/z 285>133,the OCEs were yielded as-44. 15 e V for kaempferol and-49. 01 e V for luteolin. With re-ference to their chemical structures,the location of hydroxyl group was regarded to be responsible for the differences of either m/z 285>151 or 285>133 between the isomers,attributing to their different bond properties. Above all,online ER-MS offers an eligible tool for isomeric discrimination,and provides meaningful information for the accurate chemical composition characterization based on LC-MS,which is not limited to Chinese herbal medicines.
异构体广泛分布于中药材中,可通过能量分辨质谱(ER-MS)进行鉴别。然而,ER-MS是通过注射泵直接进样参考化合物来进行的,这在高通量和自动化测量方面遇到了重大技术障碍。在此,利用液相色谱-质谱(LC-MS)平台进行在线ER-MS,并以一对异构体山奈酚和木犀草素为例,说明和评估在线ER-MS在异构体鉴别中的应用。在液相色谱-四极杆-轨道阱质谱(LC-QE-Orbitrap-MS)上采集了两种黄酮类化合物的高分辨率串联质谱数据,并提出了产生主要碎片离子的裂解途径。在MS1中,主要信号出现在m/z 285([M-H]-)处,通过逆狄尔斯-阿尔德裂解产生的两种化合物的主要信号在m/z 151和133处被观察到。随后,将光谱信息转移到LC-Qtrap-MS平台上进行在线ER-MS。构建了两个前体-产物离子跃迁候选物,分别为m/z 285>151和m/z 285>133,然后各自衍生出一组伪离子跃迁(PITs)等,精确对应于一系列递增的碰撞能量(例如-5、-8、-11 eV等)。将所有PITs输入多反应监测程序的监测列表中以生成峰面积数据集。每个数据集使用该组中的最高值进行归一化,并导入Graph Pad Prism软件中绘制高斯形状的曲线,该曲线被称为分解图。回归曲线的顶点被称为最佳碰撞能量(OCE)。对于山奈酚和木犀草素,对应于m/z 285>151的OCE值分别计算为-29.06 eV和-35.71 eV。在m/z 285>133的情况下,山奈酚的OCE为-44.15 eV,木犀草素的OCE为-49.01 eV。参考它们的化学结构,羟基的位置被认为是导致异构体之间m/z 285>151或m/z 285>133差异的原因,这归因于它们不同的键性质。最重要的是,在线ER-MS为异构体鉴别提供了一种合适的工具,并为基于LC-MS的准确化学成分表征提供了有意义的信息,这并不局限于中药材。
