Application of lithium cationization tandem mass spectrometry for structural analysis of lignin model oligomers with β-β' and β-O-4' linkages.
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Abstract |
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Structural elucidation of lignin degradation products is a requirement for successfully developing lignin valorization technology. Most of mass spectrometry-based techniques have utilized negative ion mode mass spectrometry for structural elucidation of lignin-derived compounds. Unfortunately, simple deprotonation can lead to in-source fragmentation and may not be suitable for condensed lignin structures without acidic moieties. Herein, we present a lithium cationization methodology for mass spectrometry sequencing of advanced lignin oligomers having β-β' and β-O-4' bonding motifs. To do so, two advanced lignin oligomers were first synthesized through a step-by-step synthetic route, and then subjected to two different ESI mass spectrometry techniques in positive ion mode using lithium cations for ionization. An orbitrap mass spectrometer was used to obtain exact mass information, and higher-energy collisional dissociation (HCD) was used to sequence the lignin model oligomers. Based on the sequence-specific fragment ions, sequence rules were proposed. Multi-stage (MS) collision-induced dissociation (CID) using an ion trap mass spectrometer provided data to investigate the origin of each fragment ion and to further confirm proposed fragmentation pathways. In addition to β-O-4' bond cleavage, the presented lithium cationization approach led to cleavage of β-β' bonds on the model oligomers in both ion trap and orbitrap mass spectrometry experiments. Additionally, MS experiments were used to investigate possible lithium cationization sites on the model oligomers. Lithium cationization in positive ion mode mass spectrometry proved to be a robust tool for characterization and sequencing of advanced lignin oligomers with different bonding motifs. |
Year of Publication |
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2022
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Journal |
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Analytical and bioanalytical chemistry
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Volume |
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414
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Issue |
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19
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Number of Pages |
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5755-5771
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ISSN Number |
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1618-2642
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URL |
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https://dx.doi.org/10.1007/s00216-022-04111-6
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DOI |
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10.1007/s00216-022-04111-6
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Short Title |
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Anal Bioanal Chem
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