The fungicidal effects of secondary metabolites produced by a strain of Penicillium expansum (R82) in culture filtrate and in a double petri dish assay were tested against one isolate each of Botrytis cinerea, Colletotrichum acutatum, and Monilinia laxa and six isolates of P. expansum, revealing inhibitory activity against every pathogen tested. The characterization of volatile organic compounds released by the R82 strain was performed by solid-phase microextraction–gas chromatographic techniques, and several compounds were detected, one of them identified as phenethyl alcohol (PEA). Synthetic PEA, tested in vitro on fungal pathogens, showed strong inhibition at a concentration of 1,230 mg/ml of airspace, and mycelium appeared more sensitive than conidia; nevertheless, at the concentration naturally emitted by the fungus (0.726 ¡ 0.16 mg/ml), commercial PEA did not show any antifungal activity. Therefore, a combined effect between different volatile organic compounds produced collectively by R82 can be hypothesized. This aspect suggests further investigation into the possibility of exploiting R82 as a nonchemical alternative in the control of some plant pathogenic fungi.

Rouissi W, Ugolini L, Martini C, Lazzeri L, Mari M (2013). Control of postharvest fungal pathogens by antifungal compounds from Penicillium expansum. JOURNAL OF FOOD PROTECTION, 76(11), 1879-1886.

Control of postharvest fungal pathogens by antifungal compounds from Penicillium expansum

ROUISSI, WAFA;MARTINI, CAMILLA;MARI, MARTA
2013

Abstract

The fungicidal effects of secondary metabolites produced by a strain of Penicillium expansum (R82) in culture filtrate and in a double petri dish assay were tested against one isolate each of Botrytis cinerea, Colletotrichum acutatum, and Monilinia laxa and six isolates of P. expansum, revealing inhibitory activity against every pathogen tested. The characterization of volatile organic compounds released by the R82 strain was performed by solid-phase microextraction–gas chromatographic techniques, and several compounds were detected, one of them identified as phenethyl alcohol (PEA). Synthetic PEA, tested in vitro on fungal pathogens, showed strong inhibition at a concentration of 1,230 mg/ml of airspace, and mycelium appeared more sensitive than conidia; nevertheless, at the concentration naturally emitted by the fungus (0.726 ¡ 0.16 mg/ml), commercial PEA did not show any antifungal activity. Therefore, a combined effect between different volatile organic compounds produced collectively by R82 can be hypothesized. This aspect suggests further investigation into the possibility of exploiting R82 as a nonchemical alternative in the control of some plant pathogenic fungi.
2013
Rouissi W, Ugolini L, Martini C, Lazzeri L, Mari M (2013). Control of postharvest fungal pathogens by antifungal compounds from Penicillium expansum. JOURNAL OF FOOD PROTECTION, 76(11), 1879-1886.
Rouissi W; Ugolini L; Martini C; Lazzeri L; Mari M
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/385281
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