Purification and properties of an exo-(1→3)-β- d-galactanase from Aspergillus niger

Abstract

An exo-(1→3)-β- d-galactanase was purified by six chromatographic steps from a culture supernatant of Aspergillus niger. Its apparent molecular mass was 66 kDa, as estimated by SDS-PAGE analysis. The purified enzyme had no detectable activity on various p-nitrophenyl glycosides and on native plant polysaccharides but exhibited a high activity on a (1→3)-β- d-linked galactan backbone obtained after partial acid hydrolysis and two Smith degradations of gum arabic. The optimum conditions were pH 4.5 and 40–50°C. The enzyme had a Michaelis constant ( K m) of 1.9 mg/mL for the β-(1→3)- d-galactan with a maximum reaction velocity ( V max) of 1380 nkat/mg. The study of the reaction products obtained after enzyme treatment of two galactans derived from gum arabic through one or two Smith degradations showed that it was an exo-(1→3)-β- d-galactanase able to by-pass the branching points of galactan backbones and thus to release the side-chains of type II arabinogalactans in an undegraded form.