Glucosinolates are secondary defense metabolites produced by plants of the order
Brassicales, which includes the model species Arabidopsis and many crop species. In the …

The glucosinolate pathway, which is present in the order Brassicales, is one of the most
researched defensive natural product biosynthesis pathways. Its core molecules, the …

One of the most important regulatory small molecules in plants is indole-3-acetic acid, also
known as auxin. Its dynamic redistribution has an essential role in almost every aspect of …

Microbial-based biostimulants are emerging as effective strategies to improve agricultural
productivity; however, the modes of action of such formulations are still largely unknown …

Thousands of putative biosynthetic genes in Arabidopsis thaliana have no known function,
which suggests that there are numerous molecules contributing to plant fitness that have not …

To explore the chemical composition of root exudates of the model plant Arabidopsis
thaliana a workflow for nontargeted metabolite profiling of the semipolar fraction of root …

In this work, we use electrophysiological and metabolomic tools to determine the role of
chitosan as plant defense elicitor in soil for preventing or manage root pests and diseases …

Both drought and salinity represent the greatest plant abiotic stresses in crops. Increasing
plant tolerance against these environmental conditions must be a key strategy in the …

Abstract MYB34, MYB51, and MYB122 transcription factors are known as decisive
regulators of indolic glucosinolate (IG) biosynthesis with a strong impact on expression of …

Nitriles are uncommon in nature and are typically constructed from oximes through the
oxidative decarboxylation of amino acid substrates or from the derivatization of carboxylic …