Isomeric Differentiation of Four Triterpene Acids Using Full Collision Energy Ramp-MS2 Analysis
Triterpene acids, a subclass of acidic triterpenoids existing in their free state, are widely distributed throughout traditional Chinese medicine (TCM). These compounds, characterized by their ring system structures, can be further categorized into several subtypes, primarily tetracyclic and pentacy...
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Editorial Board of Journal of Chinese Mass Spectrometry Society
2025-01-01
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| author | Li-juan WU Rui-ru NAN Qian WANG Xin CHEN Wen-jing LIU Yue-lin SONG |
| author_facet | Li-juan WU Rui-ru NAN Qian WANG Xin CHEN Wen-jing LIU Yue-lin SONG |
| author_sort | Li-juan WU |
| collection | DOAJ |
| description | Triterpene acids, a subclass of acidic triterpenoids existing in their free state, are widely distributed throughout traditional Chinese medicine (TCM). These compounds, characterized by their ring system structures, can be further categorized into several subtypes, primarily tetracyclic and pentacyclic triterpenoid acids. The structural variability is attributed to varying conjugation types and sites, resulting in numerous isomeric forms, thereby posing significant challenges to the precise identification of triterpene acids. Various methods have been employed to differentiate triterpene acid isomers, including liquid chromatography, mass spectrometry, and chemical derivatization coupled with mass spectrometry. However, these techniques often rely on reference standards or necessitate intricate sample preparation procedures, rendering them less suitable for the analysis of TCMs due to the complexity of their matrices. Therefore, there is an urgent need to find a new method to distinguish triterpene acid isomers. Herein, four triterpene acid isomers were successfully differentiated using full collision energy ramp-MS2 (FCER-MS2) analysis. Ultra-high performance liquid chromatography-quadrupole exactive-Orbitrap mass spectrometry (UPLC-QE-Qrbitrap-MS) was deployed to acquire high-resolution m/z values for four triterpene acid isomers, namely ursolic acid, oleanolic acid, α-boswellic acid and β-boswellic acid. Their mass fragmentation pathways were proposed by carefully assigning ion signals. The abundances of precursor and product ions at step-wise collision energy values were recorded using online energy-resolved mass spectrometry (online ER-MS). FCER-MS2 spectra were configured by assembling sigmoid- and Gaussian-shaped breakdown graphs of those primary MS2 spectral signals after appropriate data normalization. The parameters, such as collision energy at the half survival rate (CE50) of precursor ions, the optimal collision energy (OCE) of primary fragment ion species and the maximal relative ion intensity (RIImax) were calculated from those regressive equations, and subsequently were applied for isomers differentiation. The four isomers were firstly divided into two groups, designated as group I (ursolic acid and oleanolic acid) and group II (α-boswellic acid and β-boswellic acid) through the existences of the so-called diagnostic fragment ions. Moreover, the two isomers belonging to group I show different OCE and RIImax values for m/z 411 and 439, respectively. When concerning the two isomers in group II, significant differences occur on OCE values for m/z 163 and 121, and RIImax values for m/z 439, 219 and 205, particularly the RIImax ranking positions of m/z 439 and 219. FCER-MS2 spectra also include m/z, CE50, OCE and RIImax features, which can comprehensively cover the mass fragmentation behaviors of precursor ions, and they are therefore an eligible tool to advance structural identification confidence of triterpene acids. |
| format | Article |
| id | doaj-art-69de9fee58ba4d739b99cbc0faab2e4d |
| institution | Kabale University |
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| language | English |
| publishDate | 2025-01-01 |
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| spelling | doaj-art-69de9fee58ba4d739b99cbc0faab2e4d2025-01-22T02:33:54ZengEditorial Board of Journal of Chinese Mass Spectrometry SocietyZhipu Xuebao1004-29972025-01-0146131010.7538/zpxb.2024.00312024-031-b13Isomeric Differentiation of Four Triterpene Acids Using Full Collision Energy Ramp-MS2 AnalysisLi-juan WU0Rui-ru NAN1Qian WANG2Xin CHEN3Wen-jing LIU4Yue-lin SONG5Modern Research Center for Traditional Chinese Medicine, Beijing Research Institute of Chinese Medicine, Beijing University of Chinese Medicine, Beijing 102401, ChinaSchool of Chinese Materia Medica, Beijing University of Chinese Medicine, Beijing 102401, ChinaModern Research Center for Traditional Chinese Medicine, Beijing Research Institute of Chinese Medicine, Beijing University of Chinese Medicine, Beijing 102401, ChinaSchool of Chinese Materia Medica, Beijing University of Chinese Medicine, Beijing 102401, ChinaSchool of Pharmacy, Henan University of Chinese Medicine, Zhengzhou 450046, ChinaModern Research Center for Traditional Chinese Medicine, Beijing Research Institute of Chinese Medicine, Beijing University of Chinese Medicine, Beijing 102401, ChinaTriterpene acids, a subclass of acidic triterpenoids existing in their free state, are widely distributed throughout traditional Chinese medicine (TCM). These compounds, characterized by their ring system structures, can be further categorized into several subtypes, primarily tetracyclic and pentacyclic triterpenoid acids. The structural variability is attributed to varying conjugation types and sites, resulting in numerous isomeric forms, thereby posing significant challenges to the precise identification of triterpene acids. Various methods have been employed to differentiate triterpene acid isomers, including liquid chromatography, mass spectrometry, and chemical derivatization coupled with mass spectrometry. However, these techniques often rely on reference standards or necessitate intricate sample preparation procedures, rendering them less suitable for the analysis of TCMs due to the complexity of their matrices. Therefore, there is an urgent need to find a new method to distinguish triterpene acid isomers. Herein, four triterpene acid isomers were successfully differentiated using full collision energy ramp-MS2 (FCER-MS2) analysis. Ultra-high performance liquid chromatography-quadrupole exactive-Orbitrap mass spectrometry (UPLC-QE-Qrbitrap-MS) was deployed to acquire high-resolution m/z values for four triterpene acid isomers, namely ursolic acid, oleanolic acid, α-boswellic acid and β-boswellic acid. Their mass fragmentation pathways were proposed by carefully assigning ion signals. The abundances of precursor and product ions at step-wise collision energy values were recorded using online energy-resolved mass spectrometry (online ER-MS). FCER-MS2 spectra were configured by assembling sigmoid- and Gaussian-shaped breakdown graphs of those primary MS2 spectral signals after appropriate data normalization. The parameters, such as collision energy at the half survival rate (CE50) of precursor ions, the optimal collision energy (OCE) of primary fragment ion species and the maximal relative ion intensity (RIImax) were calculated from those regressive equations, and subsequently were applied for isomers differentiation. The four isomers were firstly divided into two groups, designated as group I (ursolic acid and oleanolic acid) and group II (α-boswellic acid and β-boswellic acid) through the existences of the so-called diagnostic fragment ions. Moreover, the two isomers belonging to group I show different OCE and RIImax values for m/z 411 and 439, respectively. When concerning the two isomers in group II, significant differences occur on OCE values for m/z 163 and 121, and RIImax values for m/z 439, 219 and 205, particularly the RIImax ranking positions of m/z 439 and 219. FCER-MS2 spectra also include m/z, CE50, OCE and RIImax features, which can comprehensively cover the mass fragmentation behaviors of precursor ions, and they are therefore an eligible tool to advance structural identification confidence of triterpene acids.https://zpxb.xml-journal.net/article/doi/10.7538/zpxb.2024.0031online energy-resolved mass spectrometry (online er-ms)breakdown graphtriterpene acidsisomers |
| spellingShingle | Li-juan WU Rui-ru NAN Qian WANG Xin CHEN Wen-jing LIU Yue-lin SONG Isomeric Differentiation of Four Triterpene Acids Using Full Collision Energy Ramp-MS2 Analysis Zhipu Xuebao online energy-resolved mass spectrometry (online er-ms) breakdown graph triterpene acids isomers |
| title | Isomeric Differentiation of Four Triterpene Acids Using Full Collision Energy Ramp-MS2 Analysis |
| title_full | Isomeric Differentiation of Four Triterpene Acids Using Full Collision Energy Ramp-MS2 Analysis |
| title_fullStr | Isomeric Differentiation of Four Triterpene Acids Using Full Collision Energy Ramp-MS2 Analysis |
| title_full_unstemmed | Isomeric Differentiation of Four Triterpene Acids Using Full Collision Energy Ramp-MS2 Analysis |
| title_short | Isomeric Differentiation of Four Triterpene Acids Using Full Collision Energy Ramp-MS2 Analysis |
| title_sort | isomeric differentiation of four triterpene acids using full collision energy ramp ms2 analysis |
| topic | online energy-resolved mass spectrometry (online er-ms) breakdown graph triterpene acids isomers |
| url | https://zpxb.xml-journal.net/article/doi/10.7538/zpxb.2024.0031 |
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