Glycoside Hydrolase family 30 harbors fungal subfamilies with distinct polysaccharide specificities

Efficient bioconversion of agro-industrial side streams requires a wide range of enzyme activities. Glycoside Hydrolase family 30 (GH30) is a diverse family that contains various catalytic functions and has so far been divided into ten subfamilies (GH30_1-10). In this study, a GH30 phylogenetic tree using over 150 amino acid sequences was contructed. The members of GH30 cluster into four subfamilies and eleven candidates from these subfamilies were selected for biochemical characterization. Novel enzyme activities were identified in GH30. GH30_3 enzymes possess -(16)-glucanase activity. GH30_5 targets -(16)-galactan with mainly -(16)galactobiohydrolase catalytic behavior. -(14)-Xylanolytic enzymes belong to GH30_7 targeting -(14)-xylan with several activities (e.g. xylobiohydrolase, endoxylanase). Additionally, a new fungal subfamily in GH30 was proposed, i.e. GH30_11, which displays -(16)-galactobiohydrolase. This study confirmed that GH30 fungal subfamilies harbor distinct polysaccharide specificity and have high potential for the production of short (nondigestible) di- and oligosaccharides.

Automated summary

Efficient bioconversion of agro-industrial side streams requires a wide range of enzyme activities. This study focused on the GH30 family of enzymes and identified novel enzyme activities within this diverse family. A phylogenetic tree was constructed, showing that GH30 enzymes cluster into four subfamilies with distinct polysaccharide specificities and high potential for the production of short non-digestible di- and oligosaccharides.