Aggressiveness and Patulin Production in Penicillium expansum Multidrug Resistant Strains with Different Expression Levels of MFS and ABC Transporters, in the Presence or Absence of Fludioxonil.
Panagiota NtasiouAnastasios SamarasEmmanouil-Nikolaos PapadakisUrania Menkissoglu-SpiroudiGeorgios S KaraoglanidisPublished in: Plants (Basel, Switzerland) (2023)
Penicillium expansum is the most common postharvest pathogen of apple fruit, causing blue mold disease. Due to the extensive use of fungicides, strains resistant to multiple chemical classes have been selected. A previous study by our group proposed that the overexpression of MFS (major facilitator superfamily) and ABC (ATP binding cassette) transporters constitute an alternative resistance mechanism in Multi Drug resistant (MDR) strains of this pathogen. This study was initiated to determine two main biological fitness parameters of MDR strains: aggressiveness against apple fruit and patulin production. In addition, the expression pattern of efflux transporters and hydroxylase-encoding genes that belong to the patulin biosynthesis pathway, in the presence or absence of fludioxonil and under in vitro and in vivo conditions were investigated. Results showed that the MDR strains produced higher concentrations of patulin but showed a lower pathogenicity compared to the wild-type isolates. Moreover, expression analysis of patC , patM and patH genes indicated that the higher expression levels do not correlate with the detected patulin concentration. The selection of MDR strains in P. expansum populations and the fact that they produce more patulin, constitutes a serious concern not only for successful disease control but also for human health. The above-mentioned data represent the first report of MDR in P. expansum associated with its patulin-production ability and the expression level of patulin biosynthesis pathway genes.
Keyphrases
- multidrug resistant
- drug resistant
- poor prognosis
- escherichia coli
- acinetobacter baumannii
- gram negative
- binding protein
- klebsiella pneumoniae
- long non coding rna
- cystic fibrosis
- pseudomonas aeruginosa
- staphylococcus aureus
- gene expression
- wild type
- artificial intelligence
- candida albicans
- genetic diversity
- biofilm formation
- genome wide identification
- deep learning
- atomic force microscopy