Tianjin State Key Laboratory of Modern Chinese Medicine & Tianjin Key Laboratory of TCM Chemistry and Analysis, Tianjin University of Traditional Chinese Medicine, 312 Anshanxi Road, Tianjin 300193, China.
Beijing Institute of Chinese Medicine, Beijing 100010, China.
J Chromatogr A. 2020 May 10;1618:460850. doi: 10.1016/j.chroma.2020.460850. Epub 2020 Jan 3.
In-source fragmentation of ginsenosides in the positive ESI mode (pISF-G) frequently occurs, which results in little fragment information useful for the structural elucidation. We are aimed to unveil the genesic mechanism and explore its potential significance in quality control of Ginseng and the related compound formulae. By applying six high-resolution mass spectrometers from Agilent, Waters, and Thermo Fisher, we could primarily demonstrate the susceptibility of pISF-G. The ion clusters in the positive full-scan MS spectra were generated from the protonated sapogenins by successive elimination of HO, and showed specificity for ginsenoside classification. Selective ion monitoring (SIM) of the sapogenin product ions could delineate group-target ginsenoside profiles from Ginseng. A high-selectivity characteristic chromatogram (CC) was elaborated for Ginseng, on the Vion™ IMS-QTOF mass spectrometer by IM (ion mobility) separation and quadrupole filtering of four sapogenin fragments (m/z 407.37/CCS 206.24 Å; m/z 423.36/CCS 211.26 Å; m/z 439.36/CCS 209.60 Å; m/z 457.37/CCS 217.81 Å). Chemometric analysis, based on the CC data of seven Ginseng drugs (P. ginseng, P. quinquefolius, P. notoginseng, Red ginseng, leaf of P. ginseng, P. japonicus, and P. japonicus var. major), disclosed 35 marker compounds. We could readily discriminate among P. ginseng, P. quinquefolius, and P. notoginseng, in 15 different compound formulae by identifying these marker compounds on both the Vion IMS-QTOF and QTrap 4500 mass spectrometers. Conclusively, SIM of the pISF-G sapogenin product ions renders a new concept of CC enabling the group-target profiling of ginsenosides and authentication of Ginseng and the related compound formulae.
在正离子模式下(pISF-G),人参皂苷经常发生内源性碎片化,导致用于结构解析的碎片信息很少。我们旨在揭示其基因发生机制,并探讨其在人参及其相关复方制剂质量控制中的潜在意义。应用安捷伦、沃特世和赛默飞世尔的 6 台高分辨率质谱仪,我们可以初步证明 pISF-G 的易感性。正全扫描 MS 谱中的离子簇由皂素质子化后连续消除 HO 产生,并显示出对人参皂苷分类的特异性。皂素产物离子的选择性离子监测(SIM)可以从人参中描绘出组靶向人参皂苷图谱。在 Vion IMS-QTOF 质谱仪上,通过离子迁移(IM)分离和对 4 个皂素片段(m/z 407.37/CCS 206.24 Å;m/z 423.36/CCS 211.26 Å;m/z 439.36/CCS 209.60 Å;m/z 457.37/CCS 217.81 Å)的四极过滤,为人参制定了一种高选择性特征色谱图(CC)。基于 7 种人参药物(人参、西洋参、三七、红参、人参叶、日本参和日本参变种)的 CC 数据进行化学计量学分析,揭示了 35 个标记化合物。我们可以在 Vion IMS-QTOF 和 QTrap 4500 质谱仪上识别这些标记化合物,很容易区分人参、西洋参和三七,以及 15 种不同的复方制剂。结论是,pISF-G 皂素产物离子的 SIM 提供了一种新的 CC 概念,能够对人参皂苷进行组靶向分析,并对人参及其相关复方制剂进行鉴定。
