TY - JOUR
T1 - The role and fate of patulin in apple-associated fungal-fungal interactions
AU - Clemmensen, Sidsel Ettrup
AU - Cowled, Michael Scott
AU - Kromphardt, Kresten Jon Korup
AU - Frisvad, Jens Christian
AU - Larsen, Thomas Ostenfeld
AU - Frandsen, Rasmus John Normand
PY - 2024
Y1 - 2024
N2 - Fungal secondary metabolites (SMs) have attracted significant attention due to their pharmaceutical applications and negative impact as food contaminants. However, less attention has been paid to understanding the ecological role of SMs for the producer and their natural microbial community. To investigate this, we performed co-cultures of SM deficient mutant strains and wild type fungi isolated from mouldy windfall apples. The competitiveness of Penicillium expansum mutant strains was tested in co-cultures with Monilinia fructigena on apple puree agar. Remarkably, the absence of patulin production in P. expansum lead to a loss of antagonism against M. fructigena, revealing a nuanced ecological role that extends beyond the involvement of patulin in host pathogenicity. Furthermore, chemical analysis revealed biotransformation of patulin by M. fructigena, pointing to a more complex interplay mediated by SMs for fungal species inhabiting the same ecosystem.
AB - Fungal secondary metabolites (SMs) have attracted significant attention due to their pharmaceutical applications and negative impact as food contaminants. However, less attention has been paid to understanding the ecological role of SMs for the producer and their natural microbial community. To investigate this, we performed co-cultures of SM deficient mutant strains and wild type fungi isolated from mouldy windfall apples. The competitiveness of Penicillium expansum mutant strains was tested in co-cultures with Monilinia fructigena on apple puree agar. Remarkably, the absence of patulin production in P. expansum lead to a loss of antagonism against M. fructigena, revealing a nuanced ecological role that extends beyond the involvement of patulin in host pathogenicity. Furthermore, chemical analysis revealed biotransformation of patulin by M. fructigena, pointing to a more complex interplay mediated by SMs for fungal species inhabiting the same ecosystem.
KW - Penicillium expansum
KW - Monilinia fructigena
KW - Secondary metabolites
KW - Patulin
KW - Antagonism
KW - Co-culture
KW - Phytopathogen
KW - Chemical ecology
U2 - 10.1016/j.funeco.2024.101341
DO - 10.1016/j.funeco.2024.101341
M3 - Journal article
SN - 1878-0083
VL - 69
JO - Fungal Ecology
JF - Fungal Ecology
M1 - 101341
ER -