The hydrophobin SC4 was isolated from the medium of a dikaryon from Schizophyllum commune with disrupted SC3 genes.
Although not glycosylated, its biophysical properties were similar to those of SC3. As the hydrophobins SC3 from S. commune and
ABH1 and ABH3 from Agaricus bisporus, SC4 self-assembled at hydrophilic-hydrophobic interfaces into an SDS insoluble amphipathic
film with a typical rodlet structure at its hydrophobic face, and also proved to be a powerful surfactant. Similar rodlet structures
were observed in the fruiting body plectenchyma. By immunodetection SC4 could be localized lining air channels within this tissue.
A similar localization was found for the ABH1 hydrophobin in fruiting bodies of A. bisporus. Probably, these hydrophobin coatings
prevent collapse of air channels allowing efficient gas exchange even under wet conditions.