AI Article Synopsis
- A comprehensive analysis of the elemental and molecular makeup of PO (plant species) and AN revealed many metabolites like carbohydrates and amino acids through NMR spectroscopy.
- The study used advanced NMR techniques, analyzing both live plant parts and residues, to identify bioactive compounds, particularly in PO residues.
- NMR spectroscopy showcased its effectiveness in plant metabolomics by identifying biomarkers and offering molecular fingerprints for better understanding and potential recycling uses, like creating fertilizer.
Article Abstract
A detailed analysis of the elemental and molecular composition of (PO) and (AN) is presented. In particular, an in-depth study of the molecular identification via NMR spectroscopy of aqueous and organic extracts of PO and AN was carried out, exploiting 2D COSY and pseudo-2D DOSY data to aid in the assignment of peaks in complex 1D proton NMR spectra. Many metabolites were identified, such as carbohydrates, amino acids, organic acids, fatty acids, and polyphenols, with NMR complementing the characterization of the two species by standard elemental analysis, HPLC analysis, and colorimetric testing. For PO, different parts of the live plant (roots, rhizomes, and leaves) were analysed, as well as the residues of the dead plant which typically deposit along the coasts. The combination of the various studies made it possible to recognize bioactive compounds naturally present in the two plant species and, in particular, in the PO residues, opening the door for their possible recycling and use in, for example, fertilizer. Furthermore, NMR is proven to be a powerful tool for the metabolomic study of plant species as it allows for the direct identification of specific biomarkers as well as providing a molecular fingerprint of the plant variety.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9963245 | PMC |
| http://dx.doi.org/10.3390/metabo13020170 | DOI Listing |
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