The formation of a β-(1→4)-d-galactan chain catalysed by a Phaseolus aureus enzyme

Abstract

With a particulate enzyme preparation from Phaseolus aureus hypocotyls, UDP-α-d-[U-14C]galactose served as a precursor for a number of products. One of these products was characterized as a β-(1→4)-linked galactan. The ADP-, GDP-, TDP- and CDP- derivatives of α-d-galactose did not serve as biosynthetic precursors for any products insoluble in 70% ethanol, nor as substrates for a sugar nucleotide 4-epimerase which is present in the particulate enzyme preparation. The 14C-labelled β-(1→4)-galactan is alkali-insoluble and was characterized by analysis of partial acetolysis products. The labelling pattern of the [14C]oligosaccharides derived from acetolysis indicates that (1) only slightly more than two [14C]galactose moieties are added to the growing polysaccharide chain on average, and (2) these additions take place at the reducing end of the polysaccharide chain. The radioactive β-(1→4)-linked galactan chain represented 8.5% of the radioactivity initially added, and 20% of the water- and butanol-insoluble products derived from UDP-α-d-[14C]galactose. Total hydrolysis of the alkali-insoluble fraction of Phaseolus aureus hypocotyl yielded d-glucose and d-mannose in a 5:1 ratio but no detectable quantities of d-galactose. A trace quantity of a radioactive disaccharide, identified as (1→3)-linked galactobiose, was isolated from the partial acetolysate of the alkali-insoluble [14C]polysaccharide material. Also isolated from this partial acetolysate was a C-1 derivative of [14C]galactose, which could not be identified. An alkali-soluble galactose-containing polysaccharide was also synthesized in this enzymic reaction, and represented 20% of the water- and butanol-insoluble products derived from UDP-α-d-[14C]galactose. The spectrum of radioactive oligosaccharides produced by partial acetolysis of this alkali-soluble polysaccharide material was different from that obtained from the alkali-insoluble polysaccharide, indicating a different structure.