BACKGROUND Metyltetraprole is a new quinone outside inhibitor (QoI) fungicide showing potent activity against QoI‐resistant fungi that possess the G143A cytochrome b mutation, which confers resistance to existing QoIs such as trifloxystrobin. For its sustainable use, monitoring of metyltetraprole sensitivity is necessary and the establishment of appropriate methodology is important in each pathogen species. RESULTS In Cercospora beticola, the causal agent of sugar beet leaf spot, some isolates were less sensitive to metyltetraprole (EC50 > 1 mg L–1, higher than the saturated concentration) using the common agar plate method, even with 100 mg L−1 salicylhydroxamic acid, an alternative oxidase inhibitor. However, microtiter tests (EC50 < 0.01 mg L−1), conidial germination tests (EC50 < 0.01 mg L−1) and in planta tests (>80% control at 75 mg L−1 run‐off spraying) confirmed that all tested isolates were highly sensitive to metyltetraprole. For trifloxystrobin, G143A mutants were clearly resistant upon microtiter plate tests (median EC50 > 2 mg L−1) and distinct from wild‐type isolates (median EC50 < 0.01 mg L−1). Notably, mycelium fragments were usable for the microtiter plate tests and the test was applicable for isolates that do not form sufficient conidia. Our monitoring study by microtiter plate tests did not indicate the presence of metyltetraprole‐resistant C. beticola isolates in populations in Hokkaido, Japan. CONCLUSION The microtiter tests were revealed to be useful for monitoring the sensitivity of C. beticola to metyltetraprole and trifloxystrobin. © 2020 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.
Metyltetraprole is a novel quinone outside inhibitor (QoI) fungicide designed to avoid cross-resistance in cytochrome b G143A-harboring QoI-resistant phytopathogenic fungi. The resistance factors of G143A-harboring fungal isolates for metyltetraprole are around 1, but > 200 for the reference QoI fungicide azoxystrobin. In this study of metyltetraprole activities against azoxystrobin-resistant isolates carrying G137R, G137S, L299F, N256S + L299F, or L275F + L299F in cytochrome b, metyltetraprole had potent activity against all isolates with these cytochrome b haplotypes. The resistance factors ranged from 0.7 to 2.9 for metyltetraprole and from 3.0 to 175.1 for azoxystrobin. We revealed unique metyltetraprole inhibitory activities against QoI-resistant plant pathogens.
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