Xyloglucan mobilisation and purification of a (XLLG/XLXG) specific β-galactosidase from cotyledons of Copaifera langsdorffii

The storage xyloglucan of germinating seeds of Copaifera langsdorffii is degraded by the action of β-galactosidase, endo-β-glucanase, α-xylosidase and β-glucosidase, producing free galactose, glucose and xylose. One of the β-galactosidases from cotyledons of germinating seeds of C. langsdorffii was purified by ion exchange and gel chromatography (Biogel P-60), leading to a single polypeptide (molecular mass 40 kDa). The enzyme has optimum activity at pH 3.2 (stable from pH 2.3 to 6.0) and is active on p-NP-β-gal (Km 3.5 mM) and lactose but not on o-NP-β-gal or p-NP-β-gal. Small amounts of galactose were released from xyloglucan of seeds of C. langsdorffii, Tamarindus indica and less from Hymenaea courbaril. No galactose was released after incubation with β-1,4-linked galactan from Lupinus angustifolius cotyledons. Much higher activity was observed on oligosaccharides obtained by hydrolysis of C. langsdorffii xyloglucan with Trichoderma viride cellulase. The purified β-galactosidase attacked XLLG and XLXG specifically, producing a mixture of XXXG and XXLG (unsubstituted glucose is assigned G; glucose branched with xylose is assigned X and if galactose is branching xylose, the trisaccharide is assigned L). Considering the recent discovery by Crombie and co-workers that (L) at the non-reducing end of the oligosaccharides prevents β-glucosidase from acting on GLXG or GLLG but not on GXLG or GXXG, the β-galactosidase isolated in this work seems to perform a key role in xyloglucan degradation since it is responsible for the retrieval of a major sterical hindrance (L) for further hydrolysis of the oligosaccharides and therefore essential for completion of xyloglucan mobilisation.