Identification of novel inhibitors of plant GH3 IAA-amido synthetases through molecular docking studies.

Auxins play a critical role in several plant developmental processes and their endogenous levels are regulated at multiple levels. The enzymes of the GRETCHEN HAGEN 3 (GH3) protein family catalyze the conjugation of amino acids to indoleacetic acid (IAA), the major endogenous auxin. The GH3 proteins are encoded by multiple redundant genes in plant genomes, making it difficult to perform functional genetic studies to understand their role in auxin homeostasis. To address these challenges, we used a chemical approach that exploits the reaction mechanism of GH3 proteins to identify small molecule inhibitors of their activity from a defined chemical library. The study evaluated receptor-ligand complexes based on their binding energy and classified them accordingly. Docking algorithms were used to correct any deviations, resulting in a list of the most important inhibitory compounds for selected GH3 enzymes based on a normalized sum of energy. The study presents atomic details of protein-ligand interactions and quantifies the effect of several of the identified small molecule inhibitors on auxin-mediated root growth processes in Arabidopsis thaliana. The direct effect of these compounds on endogenous auxin levels was measured using appropriate auxin sensors and endogenous hormone measurements. Our study has identified novel compounds of the flavonoid biosynthetic pathway that are effective inhibitors of GH3 enzyme-mediated IAA conjugation. These compounds play a versatile role in hormone-regulated plant development and have potential applications in both basic research and agriculture.