Role of Hydrophobins in Aspergillus fumigatus

Resistance of conidia to desiccation and their capacity to reach the alveoli are partly due to the presence of a hydrophobic layer composed of a protein from the hydrophobin family, called RodA, which covers the conidial surface. In there are seven hydrophobins (RodA-RodG) belonging to class I and I...

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Bibliographic Details
Published in:Journal of fungi (Basel) 2017-12, Vol.4 (1), p.2
Main Authors: Valsecchi, Isabel, Dupres, Vincent, Stephen-Victor, Emmanuel, Guijarro, J Iñaki, Gibbons, John, Beau, Rémi, Bayry, Jagadeesh, Coppee, Jean-Yves, Lafont, Frank, Latgé, Jean-Paul, Beauvais, Anne
Format: Article
Language:English
Subjects:
Aspergillus
cell wall
hydrophobin
Life Sciences
Microbiology and Parasitology
Mycology
rodlet
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Summary:Resistance of conidia to desiccation and their capacity to reach the alveoli are partly due to the presence of a hydrophobic layer composed of a protein from the hydrophobin family, called RodA, which covers the conidial surface. In there are seven hydrophobins (RodA-RodG) belonging to class I and III. Most of them have never been studied. We constructed single and multiple hydrophobin-deletion mutants until the generation of a hydrophobin-free mutant. The phenotype, immunogenicity, and virulence of the mutants were studied. is the most expressed hydrophobin in sporulating cultures, whereas is upregulated in biofilm conditions and in vivo Only RodA, however, is responsible for rodlet formation, sporulation, conidial hydrophobicity, resistance to physical insult or anionic dyes, and immunological inertia of the conidia. None of the hydrophobin plays a role in biofilm formation or its hydrophobicity. RodA is the only needed hydrophobin in , conditioning the structure, permeability, hydrophobicity, and immune-inertia of the cell wall surface in conidia. Moreover, the defect of rodlets on the conidial cell wall surface impacts on the drug sensitivity of the fungus.
ISSN:2309-608X
2309-608X
DOI:10.3390/jof4010002