LC-MS2和GC-MS联合用于区分不同化学结构玉米赤霉烯酮氧化代谢物的研究

Andreas A. Hildebrand, E. Pfeiffer, G. Damm, M. Metzler
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引用次数: 7

摘要

最近对真菌毒素玉米赤霉烯酮(ZEN)的哺乳动物和真菌代谢的研究揭示了单羟基ZEN及其还原性代谢物玉米赤霉烯醇(ZEL)的六个区域异构体的形成。羟基化发生在芳香环或脂肪族大环的四个位置之一。此外,在真菌培养中鉴定了脂肪族ZEN环氧化物,其水解产物和其他产物。本文报道了用负电喷雾线性离子阱质谱仪对ZEN和ZEL的22种氧化代谢物[M-H]−离子进行LC-MS2分析得到的产物离子谱。MS2光谱表现出定性和定量的差异,这使得大多数代谢物能够得到明确的区分。此外,GC-MS对三甲基硅化代谢物进行了分析,得到了含有大量碎片离子的电子冲击质谱,可以作为指纹来证实LC-MS2分析得出的化学结构。
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Combination of LC-MS2 and GC-MS as a Tool to Differentiate Oxidative Metabolites of Zearalenone with Different Chemical Structures
Recent studies on the mammalian and fungal metabolism of the mycotoxin zearalenone (ZEN) have disclosed the formation of six regioisomers of monohydroxy-ZEN and its reductive metabolite zearalenol (ZEL). Hydroxylation occurs at the aromatic ring or at one of four positions of the aliphatic macrocycle. In addition, an aliphatic ZEN epoxide, its hydrolysis product, and other products were identified in fungal cultures. In this paper, we report the product ion spectra of the [M-H]− ions of 22 oxidative metabolites of ZEN and ZEL, obtained by LC-MS2 analysis using a linear ion trap mass spectrometer with negative electrospray ionization. The MS2 spectra exhibit qualitative and quantitative differences which allow a clear distinction of most metabolites. Moreover, GC-MS analysis of the trimethylsilylated metabolites yields electron impact mass spectra with numerous fragment ions which can be used as fingerprint to confirm the chemical structure derived by LC-MS2 analysis.
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