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Characterization of laboratory mutants of Botrytis cinerea resistant to QoI fungicides

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dc.contributor.author Markoglou, AN en
dc.contributor.author Malandrakis, AA en
dc.contributor.author Vitoratos, AG en
dc.contributor.author Ziogas, BN en
dc.date.accessioned 2014-06-06T06:47:02Z
dc.date.available 2014-06-06T06:47:02Z
dc.date.issued 2006 en
dc.identifier.issn 09291873 en
dc.identifier.uri http://dx.doi.org/10.1007/s10658-006-0008-2 en
dc.identifier.uri http://62.217.125.90/xmlui/handle/123456789/3345
dc.subject Botryticides en
dc.subject Botrytis cinerea en
dc.subject Pyraclostrobin en
dc.subject Qo/Qi inhibitors en
dc.subject QoI-resistance en
dc.subject Strobilurins en
dc.subject.other cytochrome en
dc.subject.other fitness en
dc.subject.other fruit production en
dc.subject.other fungicide en
dc.subject.other fungus en
dc.subject.other inhibitor en
dc.subject.other mitochondrion en
dc.subject.other mutation en
dc.subject.other pathogenicity en
dc.subject.other resistance management en
dc.subject.other toxicity en
dc.subject.other Botryotinia fuckeliana en
dc.subject.other Cucumis sativus en
dc.title Characterization of laboratory mutants of Botrytis cinerea resistant to QoI fungicides en
heal.type journalArticle en
heal.identifier.primary 10.1007/s10658-006-0008-2 en
heal.publicationDate 2006 en
heal.abstract Mutants of Botrytis cinerea with moderate and high resistance to pyraclostrobin, a Qo inhibitor of mitochondrial electron transport at the cytochrome bc 1 complex, were isolated at a high mutation frequency, after nitrosoguanidine mutagenesis and selection on medium containing pyraclostrobin and salicylhydroxamate (SHAM), a specific inhibitor of cyanide-resistant (alternative) respiration. Oxygen uptake in whole cells was strongly inhibited in the wild-type strain by pyraclostrobin and SHAM, but not in the mutant isolates. Cross-resistance studies with other Qo and Qi inhibitors (QoIs and QiIs) of cytochrome bc 1 complex of mitochondrial respiration showed that the mutation(s) for resistance to pyraclostrobin also reduced the sensitivity of mutant strains to other QoIs as azoxystrobin, fluoxastrobin, trifloxystrobin and picoxystrobin, but not to famoxadone and to the QiIs cyazofamid and antimycin-A. An increased sensitivity of pyraclostrobin-resistant strains to the carboxamide boscalid, an inhibitor of complex II, and to the anilinopyrimidine cyprodinil, a methionine biosynthesis inhibitor, was observed. Moreover, no effect of pyraclostrobin resistance mutation(s) on fungitoxicity of the hydroxyanilide fenhexamid, the phenylpyrrole fludioxonil, the benzimidazole benomyl, and to the phenylpyridinamine fluazinam, which affect other cellular pathways, was observed. Study of fitness parameters in the wild-type and pyraclostrobin-resistant mutants of B. cinerea showed that most mutants had a significant reduction in the sporulation, conidial germination and sclerotia production. Experiments on the stability of the pyraclostrobin-resistant phenotype showed a reduction of resistance, mainly in moderate resistant strains, when the mutants were grown on inhibitor-free medium. However, a rapid recovery of the resistance level was observed after the mutants were returned to a selective medium. Studies on the competitive ability of mutant isolates against the wild-type parent strain, by applications of a mixed conidial population, showed that, in vitro, all mutants were less competitive than the wild-type strain. However, the competitive ability of high resistant mutants was higher than the moderate ones. Pathogenicity tests on cucumber seedlings showed that all mutant strains tested exhibited an infection ability similar with the wild-type parent strain. Preventive applications of the commercial product of F-500 25EC (pyraclostrobin) were effective against lesion development on cotyledons by the wild-type, but ineffective, even at high concentrations, against disease caused by the pyraclostrobin-resistant isolates. Boscalid (F-510 50WG) was found equally effective against the disease caused by the wild-type or pyraclostrobin-resistant mutants. This is the first report indicating the appearance of B. cinerea strains resistant to QoI fungicides by the biochemical mechanism of site modification and the risk for field resistance. © Springer 2006. en
heal.journalName European Journal of Plant Pathology en
dc.identifier.issue 2 en
dc.identifier.volume 115 en
dc.identifier.doi 10.1007/s10658-006-0008-2 en
dc.identifier.spage 149 en
dc.identifier.epage 162 en


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