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Valette, N., Renou, J., Boutilliat, A., Fernandez-Gonzalez, A. J., Gautier, V., Silar, P., Guyeux, C., Charr, J.-C., Cuenot, S., Rose, C., Gelhaye, E. & Morel-Rouhier, M. (2021) OSIP1 is a self-assembling DUF3129 protein required to protect fungal cells from toxins and stressors. Environmental Microbiology, 23 1594–1607. 
Added by: Richard Baschera (2021-01-28 08:33:10)   Last edited by: Richard Baschera (2022-05-31 09:28:06)
Type de référence: Article
Numéro d'identification (ISBN etc.): 1462-2920
Clé BibTeX: Valette2021
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Catégories: PMN
Créateurs: Boutilliat, Charr, Cuenot, Fernandez-Gonzalez, Gautier, Gelhaye, Guyeux, Morel-Rouhier, Renou, Rose, Silar, Valette
Collection: Environmental Microbiology
Consultations : 6/332
Indice de consultation : 6%
Indice de popularité : 1.5%
Liens URLs     https://sfamjourna ... 11/1462-2920.15381
Secreted proteins are key players in fungal physiology and cell protection against external stressing agents and antifungals. Oak stress-induced protein 1 (OSIP1) is a fungal-specific protein with unknown function. By using Podospora anserina and Phanerochaete chrysosporium as models, we combined both in vivo functional approaches and biophysical characterization of OSIP1 recombinant protein. The P. anserina OSIP1Δ mutant showed an increased sensitivity to the antifungal caspofungin compared to the wild type. This correlated with the production of a weakened extracellular exopolysaccharide/protein matrix (ECM). Since the recombinant OSIP1 from P. chrysosporium self-assembled as fibers and was capable of gelation, it is likely that OSIP1 is linked to ECM formation that acts as a physical barrier preventing drug toxicity. Moreover, compared to the wild type, the OSIP1Δ mutant was more sensitive to oak extractives including chaotropic phenols and benzenes. It exhibited a strongly modified secretome pattern and an increased production of proteins associated to the cell-wall integrity signalling pathway, when grown on oak sawdust. This demonstrates that OSIP1 has also an important role in fungal resistance to extractive-induced stress.
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