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dc.contributor.authorSánchez-Torres, Paloma
dc.contributor.authorTuset, Juan J.
dc.identifier.citationSanchez-Torres, P., Tuset, J. J. (2011). Molecular insights into fungicide resistance in sensitive and resistant Penicillium digitatum strains infecting citrus. Postharvest Biology and Technology, 59(2), 159-165.
dc.description.abstractThe continuous use of chemical fungicides on citrus postharvest has led to the development of resistant strains against the fungicides in use, representing a considerable threat because the control systems are no longer effective. Evaluation of the sensitivity of 75 Penicillium digitatum strains to seven different fungicides revealed the presence of a significant number of TBZ- (84%) and IMZ-resistant (77%) strains, i.e., those fungicides most used in citrus postharvest. Molecular characterization of different P. digitatum genes involved in fungicide resistance was carried out. All P. digitatum genes were selected based on particular mechanisms of resistance due to fungicide target or mode of action. TBZ-resistance was characterized by a unique point mutation in the beta-tubulin gene sequence corresponding to amino acid 200, confirming previous work on this subject. Moderate to low resistance to strobilurins did not reveal any mutation in the cytochrome 19 gene. DMI-resistance was evaluated by examining the CYP51 gene and four different ABC transporters PMR1. PMR3, PMR4 and PMR5. The CYP51 gene did not exhibit any mutation relating to DMI-resistance, but a five tandem repeat sequence previously described was found in the CYP51 promoter in 3 of the 75 isolates examined, whereas DMI-sensitive isolates and the other DMI-resistant isolates of P. digitatum had only one tandem repeat. Of all the ABC transporters studied, only PMR1 and PMR5 appear to be involved in fungicide resistance and several mutations were found in the promoter and the coding region for PMR5 in resistant strains compared to sensitive ones. In all cases, the resistance mechanism was consistent in both orchard or packing-house isolates and no differences conferred by either origin or fungicide pressure were observed. Consequently, since different processes have been described that confer fungicide resistance to the same compounds, such as DMIs, the hypothesis that multiple mechanisms could be acting simultaneously gains strength. (C) 2010 Elsevier B.V. All rights reserved.
dc.titleMolecular insights into fungicide resistance in sensitive and resistant Penicillium digitatum strains infecting citrus
dc.authorAddressInstituto Valenciano de Investigaciones Agrarias (IVIA), Carretera CV-315, Km. 10’7, 46113 Moncada (Valencia), Españaes 2011
dc.entidadIVIACentro de Protección Vegetal y Biotecnología
dc.journal.abbreviatedTitlePostharvest Biol.Technol.
dc.journal.titlePostharvest Biology and Technology

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