Background: Plants contain a myriad of metabolites which exhibit diverse biological activities. However, in-depth analyses of these natural products with current analytical platforms remains an undisputed challenge due to the multidimensional chemo-diversity of these molecules, amplified by both isomerization and conjugation. In this study, we looked at molecules such as hydroxyl-cinnamic acids (HCAs), which are known to exist as positional and geometrical isomers conjugated to different organic acids namely quinic- and isocitric acid.
Objective: The study aimed at providing a more defined distinction between HCA conjugates from Amaranthus viridis and Moringa oleifera, using mass spectrometry (MS) approaches.
Methods: Here, we used a UHPLC-MS/MS targeted approach to analyze isobaric HCA conjugates extracted from the aforementioned plants.
Results: Mass spectrometry results showed similar precursor ions and fragmentation pattern; however, distinct differences were seen with ions at m/z 155 and m/z 111 which are associated with isocitric acid conjugates.
Conclusion: Our results highlight subtle differences between these two classes of compounds based on the MS fingerprints, enabling confidence differentiation of the compounds. Thus, these findings provide a template reference for accurate and confident annotation of such compounds in other plants.
Keywords: Amaranthus viridis; Hydroxycinnamoyl-isocitric acid; Hydroxycinnamoyl-quinic acid; Hydroxyl-cinnamic acid; Mass spectrometry; Moringa oleifera.