Abstract

The dicarboximide fungicide class is commonly used to control Sclerotinia homoeocarpa, the causal agent of dollar spot on turfgrass. Despite frequent occurrences of S. homoeocarpa field resistance to iprodione (dicarboximide active ingredient), the genetic mechanisms of iprodione resistance have not been elucidated. In this study, 15 field isolates (seven suspected dicarboximide resistant, three multidrug resistance (MDR)-like, and five dicarboximide sensitive) were used for sequence comparison of a histidine kinase gene, Shos1, of S. homoeocarpa. The suspected dicarboximide-resistant isolates displayed nonsynonymous polymorphisms in codon 366 (isoleucine to asparagine) in Shos1, while the MDR-like and sensitive isolates did not. Further elucidation of the Shos1 function, using polyethylene glycol-mediated protoplast transformation indicated that S. homoeocarpa mutants (Shos1I366N) from a sensitive isolate gained resistance to dicarboximides but not phenylpyrrole and polyols. The deletion of Shos1 resulted in higher resistance to dicarboximide and phenylpyrrole and higher sensitivity to polyols than Shos1I366N. Levels of dicarboximide sensitivity in the sensitive isolate, Shos1I366N, and Shos1 deletion mutants were negatively correlated to values of iprodione-induced expression of ShHog1, the last kinase in the high-osmolarity glycerol pathway. Increased constitutive and induced expression of the ATP-binding cassette multidrug efflux transporter ShPDR1 was observed in six of seven dicarboximide-resistant isolates. In conclusion, S. homoeocarpa field isolates gained dicarboximide resistance through the polymorphism in Shos1 and the overexpression of ShPDR1.

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