Schizophyllum commune produces an α-glucuronidase that is active on polymeric xylan, while the ascomycete α-glucuronidases are only active on xylan oligomers. In this study, we have identified the gene (agu1) encoding this enzyme and confirmed the functionality by overexpression of the gene in S. commune and degradation of aldopentauronic acids, (MeGlcA)(3)-Xyl(4), in the cultivation medium of the transformants. Expression analysis demonstrated that agu1 is not co-regulated with the predominant xylanase-encoding gene (xynA) of S. commune. The detailed sequence analysis of Agu1 demonstrated that this gene belongs to a novel glycoside hydrolase family (GH115) that also contains candidate genes from ascomycete fungi and bacteria. Phylogenetic analysis showed that the fungal GH115 α-glucuronidases are distinctly separate from the prokaryotic clade and distributed over three branches. The identification of putative genes encoding this enzyme in industrial fungi, such as Aspergillus oryzae and Hypocrea jecorina, will provide a starting point for further analysis of the importance of this enzyme for the hydrolysis of plant biomass.