STRUCTURAL STUDIES ON WATER-SOLUBLE ARABINOXYLANS IN RYE GRAIN USING ENZYMATIC-HYDROLYSIS

The major water-soluble arabinoxylan fraction from rye grain, containing 4-linked beta-D-xylopyranosyl residues of which about 43% were substituted solely at O-3 and 7% at both O-2 and O-3 with terminal alpha-L-arabinofuranosyl units, was hydrolysed to different extents using semi-purified xylanase from Trichoderma reesei. Products were fractionated on Biogel P-2 and structurally elucidated by sugar, methylation and high-field H-1-NMR analysis. Moderate hydrolysis released arabinose, xylose, xylobiose, xylotriose and xylotetraose together with xylo-oligosaccharides (DP greater-than-or-equal-to 4) in which one or more of the residues were substituted at O-3 with a terminal arabinose unit. The xylose residues substituted with arabinose units at both O-2 and O-3 became enriched in the remaining polymeric fraction. Extensive hydrolysis with the enzyme released arabinose, xylose and xylobiose as major products together with small amounts of two oligosaccharides and a polymeric fraction. One of the oligosaccharides was identified as xylotriose in which the non-reducing end was substituted at O-2 and O-3 with terminal arabinose units and the other as xylotetraose in which one of the interjacent residues was substituted with arabinose units in the same way. The polymeric fraction contained a main chain of 4-linked xylose residues in which 60-70% of the residues were substituted at both O-2 and O-3 with arabinose units. The semi-purified enzyme contained xylanase and arabinosidase activities which rapidly degraded un- and mono-substituted xylose residues while the degradation of double-substituted xylose residues was much slower. The results show that the mono- and double-substituted xylose residues were present in different polymers or different regions of the same polymer.