Abstract
IntroductionOxygen from carbon dioxide, water or molecular oxygen, depending on the responsible enzyme, can lead to a large variety of metabolites through chemical modification.ObjectivesPathway-specific labeling using isotopic molecular oxygen (18O2) makes it possible to determine the origin of oxygen atoms in metabolites and the presence of biosynthetic enzymes (e.g., oxygenases). In this study, we established the basis of 18O2-metabolome analysis.Methods18O2 labeled whole Medicago truncatula seedlings were prepared using 18O2-air and an economical sealed-glass bottle system. Metabolites were analyzed using high-accuracy and high-resolution mass spectrometry. Identification of the metabolite was confirmed by NMR following UHPLC–solid-phase extraction (SPE).ResultsA total of 511 peaks labeled by 18O2 from shoot and 343 peaks from root were annotated by untargeted metabolome analysis. Additionally, we identified a new flavonoid, apigenin 4′-O-[2′-O-coumaroyl-glucuronopyranosyl-(1–2)-O-glucuronopyranoside], that was labeled by 18O2. To the best of our knowledge, this is the first report of apigenin 4′-glucuronide in M. truncatula. Using MSn analysis, we estimated that 18O atoms were specifically incorporated in apigenin, the coumaroyl group, and glucuronic acid. For apigenin, an 18O atom was incorporated in the 4′-hydroxy group. Thus, non-specific incorporation of an 18O atom by recycling during one month of labeling is unlikely compared with the more specific oxygenase-catalyzing reaction.ConclusionOur finding indicated that 18O2 labeling was effective not only for the mining of unknown metabolites which were biosynthesized by oxygenase-related pathway but also for the identification of metabolites whose oxygen atoms were derived from oxygenase activity.
Highlights
Oxygen from carbon dioxide, water or molecular oxygen, depending on the responsible enzyme, can lead to a large variety of metabolites through chemical modification
Because incorporation of 18O or 34S cannot be measured directly, the 80% methanol extraction of unlabeled, 18O-labeled, and 34S-labeled shoots were analyzed by liquid chromatography (LC)–Orbitrap–mass spectrometry (MS) using a mass accuracy of 3 ppm
We have studied pathway-specific metabolome analysis using 18O2-labeled M. truncatula
Summary
Oxygen from carbon dioxide, water or molecular oxygen, depending on the responsible enzyme, can lead to a large variety of metabolites through chemical modification. Using M Sn analysis, we estimated that 18O atoms were incorporated in apigenin, the coumaroyl group, and glucuronic acid. Conclusion Our finding indicated that 18O2 labeling was effective for the mining of unknown metabolites which were biosynthesized by oxygenase-related pathway and for the identification of metabolites whose oxygen atoms were derived from oxygenase activity. Annotation is typically performed by comparing tandem mass spectrometry (MS/ MS) spectra of unknowns with spectra of known metabolites (Sumner et al 2007). This approach cannot be applied to many rare plant-specific metabolites, because corresponding authentic standards are not available in many cases. Use of stable isotopes is effective for the estimation of elemental composition
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