Hydrogen Peroxide-Oxidative Signaling Enhances Biosynthesis of Specialized Metabolites in Baccharis conferta Kunth
Norma Elizabeth Moreno-Anzúrez, Celic Sibel Sarmiento-Ramírez, Ana Silvia Gutiérrez-Román, Virginia Medina-Pérez, Luis Rafael Garibay-Castro, Elizabeth Rubio-Rodríguez, Gabriela Trejo-Tapia

TL;DR
Hydrogen peroxide boosts the production of useful plant compounds in Baccharis conferta, a medicinal plant, by activating key metabolic pathways.
Contribution
The study shows that moderate H2O2 levels act as a signaling molecule to enhance biosynthesis of specialized metabolites in B. conferta.
Findings
25 µM H2O2 increased PAL activity by 52%, TPC by 42%, and TFC by 50%.
25 µM H2O2 upregulated Bco-DXS1 gene and increased total terpene content.
Five compounds, including chlorogenic acid, showed significant variation across H2O2 treatments.
Abstract
Hydrogen peroxide (H2O2) regulates plant metabolism. This study examined its effect on the biosynthesis of specialized metabolites in Baccharis conferta, a medicinal plant rich in phenolics and terpenes. Plants were elicited with 25 µM and 250 µM H2O2. Phenolic changes were evaluated by total phenolic content (TPC), total flavonoid content (TFC), phenylalanine ammonia-lyase (PAL) activity, and LC-MS analysis of flavonoids and hydroxycinnamic acids. Meanwhile, terpene changes were evaluated by HPTLC, total terpene content (TTC), and expression of the 1-deoxy-D-xylulose-5-phosphate synthase (Bco-DXS1) gene. H2O2 markedly modulated both pathways. Phenolic metabolism was activated, particularly under 25 µM H2O2, with PAL activity increasing by 52%, TPC by 42%, and TFC by 50% relative to the control. Chemical analysis revealed that five compounds, including chlorogenic acid, differed…
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Taxonomy
TopicsPlant biochemistry and biosynthesis · Plant Gene Expression Analysis · Sesquiterpenes and Asteraceae Studies
