Abstract
The ascomycete Zymoseptoria tritici is the causal agent of septoria leaf blotch on wheat. Disease control relies mainly on resistant wheat cultivars and on fungicide applications. The fungus displays a high potential to circumvent both methods. Resistance against all unisite fungicides has been observed over decades. A different type of resistance has emerged among wild populations with multi-drug resistant (MDR) strains. Active fungicide efflux through overexpression of the major-facilitator gene, MFS1, explains this emerging resistance mechanism. In this study, we identified as responsible mutations three types of inserts in the MFS1 promoter, two of which harboring potential transcription factor binding sites. We show, that type I insertion leads to MFS1 overexpression and consequently to MDR. Interestingly, all three inserts correspond to repeated elements of the Z. tritici genome.
These results underline the plasticity of repeated elements leading to fungicide resistance in Z. tritici and which contribute to its adaptive potential.