Journal of Fungi (Nov 2020)

<i>Agrobacterium tumefaciens</i>-Mediated Transformation of <i>Fonsecaea monophora</i> and <i>Fonsecaea erecta</i> for Host-Environment Interaction Studies

  • Cristina Isabel Ferrer Villena,
  • Renata Rodrigues Gomes,
  • Larissa Fernandes,
  • Camille Silva Florencio,
  • Amanda Bombassaro,
  • Maria Eduarda Grisolia,
  • Edvaldo da Silva Trindade,
  • Sybren de Hoog,
  • Vania Aparecida Vicente

DOI
https://doi.org/10.3390/jof6040325
Journal volume & issue
Vol. 6, no. 4
p. 325

Abstract

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The fungal genus Fonsecaea contains etiological agents of human chromoblastomycosis, a (sub)tropical, (sub)cutaneous implantation disease caused by plant contact. The invasive potential differs significantly between species. Infections by Fonsecaea monophora are believed to originate from the environment and the species has been reported as one of the main causative agents of the disease, but also of cases of primary brain infection. The epidemiology of the disease has not been fully elucidated and questions related to its infection route and virulence are still to be clarified. The environmental species Fonsecaea erecta was isolated from organic material and living plants in endemic areas for chromoblastomycosis in Brazil. The present paper describes Agrobacteriumtumefaciens-mediated transformation (AMT) of the environmental species F. erecta and the pathogenic species F. monophora. We propose the use of Agrobacterium transformation for future gene function studies related to Fonsecaea virulence and pathogenicity. We evaluated the co-cultivation ratios 1:1, 10:1 and 100:1 (Agrobacterium:conidia) at 28 °C during 72 h. pAD1625 and pCAMDsRed plasmids were inserted into both species. Confirmation of transformation was realized by hph gene amplification and Southern blot determined the amount of foreign DNA integrated into the genome. In order to evaluate a potential link between environmental and clinical strains, we obtained red fluorescent transformants after pCAMDsRed insertion. We observed by confocal fluorescence microscopy that both F. monophora and F. erecta were able to colonize the palm Bactris gasipaes, penetrating the epidermis. These results contribute to understanding the ability of Fonsecaea species to adapt to different environmental and host conditions.

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