Green mycosynthesis of ZnO nanoparticles enhances antifungal defense against Fusarium equiseti through metabolic and gene expression modulation
EL-Sayed M. El-Morsy, Yomna S. Elmalahy, Elsayed E. Hafez

TL;DR
Green-synthesized ZnO nanoparticles effectively inhibit the growth of the plant pathogen Fusarium equiseti by altering its metabolism and gene expression.
Contribution
A novel green synthesis method for ZnO nanoparticles that shows antifungal efficacy comparable to commercial fungicides.
Findings
ZnO-NPs inhibited mycelial growth of F. equiseti up to 73.41% at 5 mg/mL.
ZnO-NPs induced stress-related metabolites and modulated membrane-active compounds in F. equiseti.
ZnO-NPs upregulated defense-related genes (PR2, PPO, PR5, PR8) in F. equiseti strains.
Abstract
The soil borne phytopathogen Fusarium equiseti poses a significant threat to global crop production, with limited sustainable control options. In this study, zinc oxide nanoparticles (ZnO-NPs) were green-synthesized using the extracellular filtrate of Trichoderma asperellum and characterized by SEM, XRD, FTIR, DLS, and Zeta potential apparatuses. The biosynthesized ZnO-NPs exhibited a quasi-spherical morphology with a size range of 13–19 nm, high crystallinity, and a stable negative zeta potential (− 27 mV). FTIR confirmed successful ZnO-NPs formation through the characteristic absorption band at 599 cm−1. Antifungal assays revealed a concentration dependent inhibition of mycelial growth in two examined strains of F. equiseti, achieving maximum suppression of 72.41 ± 0.01 and 73.41 ± 1.16% at 5 mg mL−1, comparable to the commercial fungicide Propiconazole (5 mg mL−1) with inhibition…
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Taxonomy
TopicsNanoparticles: synthesis and applications · Plant-Microbe Interactions and Immunity · Nanocomposite Films for Food Packaging
