Study of auxin metabolism using stable isotope labeling and LCMS; evidence forin plantaauxin decarboxylation pathway

Abstract

AbstractThe natural plant hormone auxin indole-3-acetic acid (IAA) influences many physiological processes in plants. Here, the metabolism of IAA was studied in detail using tobacco BY-2 cells as a model and compared with thein plantametabolism in several plant species. A combination of labeled/unlabeled substrate feeding, global untargeted mass spectrometric (MS) scanning, and selective MS filtering allowed the detection of 17 auxin metabolites, 15 of which were identified. Subsequent study of intermediate metabolism and dynamics revealed eight major pathways: three amino acid conjugation pathways with aspartate, glutamate, and glutamine, followed by their 2-oxidation with the help of the DAO enzyme; side-chain glucosyl ester formation; direct 2-oxidation; two decarboxylation pathways; and a pathway producing an unidentified metabolite. Interestingly, the first intermediates of the two decarboxylation pathways, indole-3-carbinol and oxoindole-3-carbinol, were formed outside the cells. We found that the majority of the detected auxin metabolites occur naturally in several plant species and that IAA is their precursor, indicating that the auxin metabolic pathways observed in BY-2 cells also occurin planta. Our finding that the IAA decarboxylation pathway occursin planta, and the previous reports of auxin activity of some metabolites of this pathway, suggest that at least some of the biological effects of IAA may be explained by its conversion to decarboxylative metabolites.