Plant Stress (Jun 2024)
Quinate-enhanced glyphosate toxicity is related to the accumulation of quinate derivatives
Abstract
Glyphosate is the most widely used herbicide and works by inhibiting the enzyme 5-enolpyruvylshikimate 3-phosphate synthase (EPSPS) of the shikimate pathway, preventing the aromatic amino acid biosynthesis. When applied to plants, it provokes the accumulation of quinate, a metabolite synthesized through a side branch of the shikimate pathway. The joint application of glyphosate and quinate enhanced glyphosate efficacy on Amaranthus palmeri, requiring one-quarter of the recommended dose of glyphosate for complete control. Expression of the genes of the shikimate pathway and non-targeted GC-MS metabolic profiling were conducted to compare the physiological response after glyphosate, quinate or the combination of both. A perturbed gene expression of the shikimate pathway was detected after quinate applied alone, while no relevant changes in the metabolome were detected. The sub-lethal glyphosate treatment induced gene expression in the shikimate pathway, accumulation of the metabolites located upstream EPSPS and disturbances in the amino acid content. The exacerbation of the phytotoxicity in the lethal combined treatment was not related to any specific change in the expression level of the shikimate pathway. Metabolic profiling indicated that the accumulation of quinate and quinate derivatives detected after quinate applied alone was severely enhanced after the combined treatment of quinate and glyphosate.