Abstract

Brown rot, caused by Monilinia fructicola, is one of the most economically important diseases of peach. Demethylation inhibitor (DMI) fungicides play an important part in managing brown rot in the southeastern U.S., but over the last 20 years, reduced efficacy to DMIs has been reported in field isolates overexpressing the DMI target enzyme encoding MfCYP51 gene. Metabolites of the biocontrol agent (BCA) Pseudomonas chlororaphis strain AFS009 suppressed the MfCYP51 gene in sensitive and resistant M. fructicola isolates previousely, but it is not known what molecule was responsible. The goals of this study were to determine the presence and role of pyrrolnitrin (PRN), a common metabolite of P. chlororaphis and chemical analogue to fludioxonil with antifungal activity, in the suppression of the MfCYP51 gene and to investigate if MfCYP51 expression can also be suppressed by Bacillus subtilis. High-performance liquid chromatography (HPLC) detected pyrrolnitrin at 1.75 µg/mg in P. chlororaphis metabolites formulated as Howler EVO (Howler). PRN at 0.1 µg/ml, fludioxonil at 0.1 µg/ml, and Howler applied at a dose that contained 0.1 µg/ml PRN significantly reduced the MfCYP51 gene expression at similar levels in DMI-resistant isolates. Furthermore, MfCYP51 expression in DMI-sensitive and three DMI-resistant isolates treated with Howler (88.1 µg/ml), Theia (209.5 µg/ml), propiconazole (0.3 µg/ml), or the mixture of either Howler or Theia + propiconazole revealed that Howler significantly reduced the MfCYP51 target gene expression in two of three sensitive and all three resistant M. fructicola isolates. On the other hand, Theia showed no suppressive effect and even increased the MfCYP51 gene expression level in two of three resistant isolates. In detached fruit assays on apple with a DMI resistant isolate, only the mixture of Howler + 50 µg/ml propiconazole resulted in synergism. The results indicate that suppression of MfCYP51 target gene is BCA-dependent and can be induced by pyrrolnitrin.

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