Transferase reactions of the β-galactosidase from Streptococcus thermophilus

Summary

The β-galactosidase from Streptococcus thermophilus formed transferase products (including up to six disaccharides and two trisaccharides) during the hydrolysis of lactose to glucose and galactose. The extent of transferase products formed was dependent on the initial lactose concentration, reaching up to 40% of the total carbohydrate at 70% w/v lactose. At high lactose concentrations (≥40% w/v) trisaccharide transferase products were formed initially, followed by the appearance of disaccharide transferase products. In contrast, at low lactose concentrations (≤7.5 w/v), only traces of the trisaccharides were detected with disaccharides being the predominant transferase products. The disaccharide products accumulated to relatively high concentrations late in the overall hydrolysis of lactose, at both high and low initial lactose concentrations, while the trisaccharides peaked much earlier and were themselves subsequently hydrolysed prior to the complete disappearance of lactose. It was possible to study the hydrolysis of galactosyl lactose by the S. thermophilus β-galactosidase using a semi-pure galactosyl lactose preparation containing 5% lactose. The hydrolysis of this trisaccharide occurred via at least four disaccharide intermidiates, which appeared chromatographically identical to the disaccharide transferase products formed during lactose hydrolysis. This suggests that the enzymic formation and subsequent hydrolysis of galactosyl lactose occurs via coincident reaction pathways. The initial rate of galactose over glucose formation during galactosyl lactose hydrolysis changed from a ratio of 3:1 at low (2–3% w/v) substrate concentrations to 1.5:1 at high (>20% w/v) concentrations. This indicates a shift in the preferred initial cleavage site from the galactose-galactose bond to the galactose-glucose bond.