Fungal hydrophobins unleashed from food waste: production, rodlet assembly, and functional properties in Ganoderma adspersum
Reyes, C.; Boschi, E.; Gehrig, P.; Bienz, S.; Kumar, N.; Carvalho, T.; Kummer, N.; Bürgi, L.; Sinha, A.; Schwarze, F.; Campioni, S.; Nyström, G.
Show abstract
Ganoderma adspersum is a white-rot fungus (WRF) that produces amphipathic, surface-active proteins, known as hydrophobins. To explore sustainable routes for protein production and waste valorization, G. adspersum was cultivated under defined shaking conditions using different carbon and nitrogen sources, including apple skin food waste. From these cultures, we report for the first time the isolation and characterization of a novel class I hydrophobin, designated as Gad1. Atomic force microscopy revealed abundant rodlet-like nanostructures consistent with class I hydrophobin assemblies, and Raman spectroscopy confirmed {beta}-sheet enrichment typical of amyloid-like organization. MALDI-TOF mass spectrometry further identified Gad1 along with additional hydrophobin-like proteins in the foam. Hydrophobin-enriched foam extracts were used to form stable oil-in-water emulsions that could be converted into porous, freezedried composite aerogels. These findings expand the known diversity of hydrophobins in whiterot fungi and demonstrate that food-waste-derived substrates can support hydrophobin production and functional biomaterial formation.
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