Archive/Cyclic Dipeptide Cyclo(l-Phe-l-Pro) Derived from Beauveria bassiana Exhibits Stronger Antifungal Activity than Beauvericin Against Fusarium oxysporum
Cyclic Dipeptide Cyclo(l-Phe-l-Pro) Derived from Beauveria bassiana Exhibits Stronger Antifungal Activity than Beauvericin Against Fusarium oxysporum
Marta Ranesi, Martina Sinno, Alessia Staropoli et al.
9. Juli 2026
en

Abstract

Fusarium oxysporum f. sp. lycopersici (Fol) is a destructive soil-borne pathogen responsible for major global losses in tomato production, within a context of increasingly constrained fungicide use in intensive farming systems. Sustainable alternatives to chemical fungicides are urgently needed, and microbial secondary metabolites represent a promising source of antifungal compounds. This study explores the antifungal potential of secondary metabolites produced by a natural isolate of Beauveria bassiana (Bb758) previously reported to exhibit strong biocontrol activity against Fol. LC-HRMS metabolomic profiling revealed a chemically diverse metabolite profile dominated by amino acid-derived compounds, peptides and alkaloids. Purification of the crude extract by column chromatography and reverse-phase HPLC yielded beauvericin and several 2,5-diketopiperazines as the main bioactive constituents. These compounds were identified by NMR and LC-HRMS analyses. The antifungal activity of beauvericin (BEA), cyclo(l-Phe-l-Pro) (CFP) and fractions was evaluated against spore germination and germ tube development of Fol. BEA exhibited dose-dependent but limited activity, showing significant inhibition only at high concentrations (100 μg mL−1). In contrast, CFP showed significantly higher antifungal activity than BEA, inhibiting both germination and germ tube formation at concentrations as low as 10 μg mL−1. These results identify CFP as a promising antifungal compound targeting the early infection stages of Fol and highlight fungal-derived diketopiperazines as candidate molecules for sustainable disease management strategies.

IPC Classification

C07A01

Keywords

cyclicdipeptidecyclol-phe-l-proderivedbeauveriabassianaexhibitsstrongerantifungalactivitythanbeauvericinagainstfusariumoxysporumagriculturelycopersicidestructivesoil-bornepathogenresponsiblemajorglobal
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