The zinc finger protein StMR1 affects the pathogenicity and melanin synthesis of Setosphaeria turcica and directly regulates the expression of DHN melanin synthesis pathway genes

The infection and colonization of pathogenic fungi are often regulated by transcription factors. In our previous study, the zinc finger protein-encoding gene StMR1 was found to be highly expressed during the infection process of Setosphaeria turcica, the pathogen causing northern corn leaf blight. Evolutionary tree analysis showed that this gene was associated with regulatory factors of melanin synthesis. However, the regulatory mechanism of melanin synthesis and its effect on pathogenicity remain unclear. In this study, the function of StMR1 was analyzed by gene knockout. When the expression level of StMR1 in the mutants was significantly reduced, the colony color became lighter, the mycelia were curved and transparent, and the mutant showed a significant loss of pathogenicity. In addition, compared with wild-type, the accumulation of melanin decreased significantly in ΔStmr1. RNA-seq analysis revealed 1,981 differentially expressed genes between the wild-type and knockout mutant, among which 39 genes were involved in melanin metabolism. qPCR revealed that the expression levels of six key genes in the melanin synthesis pathway were significantly reduced. ChIP-PCR and yeast one-hybrid assays confirmed that StMR1 directly binds to the promoters of St3HNR, St4HNR, StPKS, and StLAC2 in the DHN melanin synthesis pathway and regulates gene expression. The C2H2-type zinc fingers and Zn(Ⅱ)2Cys6 binuclear cluster in StMR1 were important for the binding to targets.

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