RESUMO
Lasiodiplodia theobromae is the main pathogen of mango stem-end rot disease, causing mango fruit decay and major economic loss. QoI resistance has been found in field populations of L. theobromae. The characterization and resistance mechanism of pyraclostrobin-resistant L. theobromae was investigated by using a combination of bioassays and biochemical and molecular methods. The pyraclostrobin resistance among the L. theobromae population samples from Hainan was 93.41%. The resistant isolates were stable after successive subculturing for 10 times on PDA. Cross-resistance was observed only between the Qols pyraclostrobin and azoxystrobin. The alternative oxidase (AOX) inhibitor SHAM notably decreased the EC50 values of pyraclostrobin for all tested L. theobromae isolates. Induction of AOX by pyraclostrobin was observed in mycelia cells of L. theobromae. After treatment with pyraclostrobin, the final ATP and AOX contents of all sensitive isolates were significantly lower than those of resistant isolates. The relevant mutation and high expression of the cytochrome b gene were not detected in resistant isolates. However, there were 4 mutations in the AOX gene, which were only observed in highly resistant isolates. Pretreatment with pyraclostrobin resulted in a significant upregulation of AOX gene expression, and the average expression level of the highly resistant isolates was 33-fold that of the control group. These results suggested that the AOX pathway is responsible for resistance to pyraclostrobin, and that the AOX-related resistance mechanism is common in field populations of L. theobromae in Hainan mango orchards.
