Evaluation of SYP‐34773's resistance risk and its impact on the activity of mitochondrial respiratory electron transport chain complex I in Phytophthora litchii

Abstract

AbstractBACKGROUNDSYP‐34773 is a low‐toxicity pyrimidine amine compound, which was synthesized by modifying the lead compound diflumetorim. Previous literature has shown that it can strongly inhibit the mycelial growth of several important plant pathogens, including Phytophthora litchii. However, the resistance risk of SYP‐34773 has not been reported for P. litchii.RESULTSThe mean effective concentration (EC50) value of SYP‐34773 against the mycelial growth of 111 P. litchii isolates was 0.108 ± 0.008 μg mL−1, which can be used as the baseline sensitivity for SYP‐34773 resistance detection in the future. Six mutants were obtained from two parental strain through fungicide induction, whose resistance factors fell between 194‐ and 687‐fold, with stability. Results regarding mycelial growth, sporangial production, sporangial germination, zoospore release, cystspore germination, and pathogenicity showed that the mutants' compound fitness index values were significantly lower than those of their parental isolate. Furthermore, there was no cross‐resistance between SYP‐34773 and diflumetorim in P. litchii. Significant inhibition of the mitochondrial complex I enzyme activity in two wild‐type P. litchii isolates, but not in mutants, was observed upon treatment with SYP‐34773.CONCLUSIONThe resistance risk of SYP‐34773 in P. litchii is moderate, and resistance management strategies should be adopted in field use. SYP‐34773 is a mitochondrial complex I inhibitor, and SYP‐34773‐resistant P. litchii isolates did not show cross‐resistance against diflumetorim. © 2023 Society of Chemical Industry.