The transcription factor FgMed1 is involved in early conidiogenesis and DON biosynthesis in the plant pathogenic fungus Fusarium graminearum.

Fusarium graminearum is a prominent fungal pathogen that causes economically important losses by infesting a wide variety of cereal crops. F. graminearum produces both asexual and sexual spores which disseminate and inoculate hosts. Therefore, to better understand the disease cycle and to develop strategies to improve disease management, it is important to further clarify molecular mechanisms of F. graminearum conidiogenesis. In this study, we functionally characterized the FgMed1, a gene encoding an ortholog of a conserved MedA transcription factor known to be a key conidiogenesis regulator in Aspergillus nidulans. The gene deletion mutants ΔFgMed1 produced significantly less conidia, and these were generated from abnormal conidiophores devoid of phialides. Additionally, we observed defective sexual development along with reduced virulence and deoxynivalenol (DON) production in ΔFgMed1. The GFP-tagged FgMed1 protein localized to the nuclei of conidiophores and phialides during early conidiogenesis. Significantly, RNA-Seq analyses showed that a number of the conidiation- and toxin-related genes are differentially expressed in the ΔFgMed1 mutant in early conidiogenesis. These data strongly suggest that FgMed1 involved in regulation of genes associated with early conidiogenesis, DON production, and virulence in F. graminearum.

ESCRT-III accessory proteins regulate fungal development and plant infection in Fusarium graminearum.

Ubiquitinated biosynthetic and surface proteins destined for degradation are sorted into the lysosome/vacuole via the multivesicular body sorting pathway, which depends on the function of ESCRT machinery. Fusarium head blight (FHB) caused by Fusarium graminearum is one of the most devastating diseases for wheat and barley worldwide. To better understand the role of ESCRT machinery in F. graminearum, we investigated the function of ESCRT-III accessory proteins FgVps60, FgDid2 and FgIst1 in this study. FgVps60-GFP, FgDid2-GFP and FgIst1-GFP are localized to punctate structures adjacent to the vacuolar membrane except for FgIst1-GFP that is also found in the nucleus. Then, the gene deletion mutants ΔFgvps60, ΔFgdid2 and ΔFgist1 displayed defective growth to a different extent. ΔFgvps60 and ΔFgdid2 but not ΔFgist1 also showed significant reduction in hydrophobicity on cell surface, conidiation, perithecia production and virulence. Interestingly, ΔFgist1 mutant produced a significantly higher level of DON while showing a minor reduction in pathogenicity. Microscopic analyses revealed that FgVps60 but not FgIst1 and FgDid2 is necessary for endocytosis. Moreover, spontaneous mutations were identified in the ΔFgvps60 mutant that partially rescued its defects in growth and conidiation. Taken together, we conclude that ESCRT-III accessory proteins play critical roles in growth, reproduction and plant infection in F. graminearum.