Environmental and phytohormone modulation of organ‐specific specialized metabolite profiles in the dryland tree Erythrina velutina
D. S. Chacon, B. Bonilauri, C. T. da Costa, J. Vilasboa, M. Koetz, L. Pinto, J. A. S. Zuanazzi, R. B. Giordani, A. G. Fett‐Neto

TL;DR
This study explores how environmental stress and phytohormones influence the production of medicinal compounds in the dryland tree Erythrina velutina.
Contribution
The study identifies specific environmental and phytohormonal factors that modulate organ-specific metabolite profiles in Erythrina velutina.
Findings
Nitric oxide, drought, heat, UV radiation, and methyl jasmonate significantly increased major metabolite accumulation.
Organ- and time-specific metabolite profiles were observed in leaves and roots of Erythrina velutina.
Phytoanticipin-like metabolite profiles were more prevalent than phytoalexin-like profiles.
Abstract
Erythrina velutina is a tree that thrives in the shallow rocky soils of the dry and hot Caatinga, a unique Brazilian biome. It is rich in specialized metabolites with medicinal properties. Indeed, alkaloids and flavonoids are phytochemical markers of the genus. Our previous studies identified key biochemical and molecular targets in biosynthesis of these metabolites in E. velutina, including phytohormone signalling pathways and responses to environmental stressors. However, the role of these signalling molecules and external factors in modulating the tree natural product (NP) profiles remains unexplored.In this study, seedlings of E. velutina were subjected to environmental stress (heat, ultraviolet radiation, drought, salinity, mechanical damage) and phytohormone exposure (methyl jasmonate, salicylic acid, nitric oxide, abscisic acid). Leaves and roots were collected after 2 and 4 days…
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Taxonomy
TopicsPlant Gene Expression Analysis · Bioactive natural compounds · Plant Stress Responses and Tolerance
