Raffinose family oligosaccharides (RFOs) are abundant in side streams from food and feed production from legumes, and the transition to plant-based diets increases the volume of such side streams. RFOs in the diet tend to have negative impacts on the consumers gut (e.g., nausea, bloating, diarrhoea), and in many ways, RFOs are comparable to lactose as a side stream from the dairy industry and symptoms associated with lactose intolerance. On the contrary, galactooligosaccharides (GOS) are recognized as prebiotics, and in this study we used a {beta}-galactosidase from Niallia circulans to produce potential prebiotics from RFOs (acceptors) and lactose (donor), which we hypothesized to have a lower fermentability than unmodified RFOs. The transglycosylation reactions resulted in RFO-based {beta}--GOS, with NMR characterization showing ({beta}1-4) galactosylations on the non-reducing galactose end of RFOs as the major product. In reactions with RFOs, the characteristics were comparable to reactions with lactose alone and the new -{beta}-GOS products made up the largest fraction (by weight). A screening of 11 relevant gut and food microbe strains revealed that the gut commensal Bacteroidetes ovatus metabolised these modified oligosaccharides for growth whereas other strains grew only after adaption and others did not use them at all. This implies that mixed-linkage -{beta}-GOS are less fermentable by some microbes compared to raffinose, while other (beneficial) bacteria can still ferment them. The enzymatic synthesis established here is an interesting approach to upgrade abundant food side streams towards new prebiotics in a world where functional foods and food waste reduction receive increasing attention.
Garbers, P., Boehlich, G. J., Zeuner, B., Agger, J. W., Westereng, B.
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