Production of high-purity galacto-oligosaccharides by depleting glucose and lactose from galacto-oligosaccharide syrup with yeasts.

Galacto-oligosaccharides (GOS) are prebiotic compounds, widely used as ingredients in various food, nutraceutical and pharmaceutical products. Enzymatic synthesis of GOS results in low-purity products that contain high amounts of glucose and lactose beside the valuable GOS. In this study, a systematic approach was used to develop yeast-based fermentation strategies to purify crude GOS. Potentially applicable yeast strains were identified based on an extensive search in literature databases followed by a series of laboratory-scale fermentation tests. Single- and two-step fermentation processes were designed for the removal of glucose alone or together with lactose from crude GOS syrup. Single-step fermentation trials with two strains of previously unreported species, Cyberlindnera jadinii NCAIM Y.00499 and Kluyveromyces nonfermentans NCAIM Y.01443, resulted in purified products free of both glucose and ethanol from a crude GOS syrup diluted to 15 and 10 w/v%, respectively. Simultaneous removal of glucose and lactose was achieved by Kluyveromyces marxianus DMB Km-RK in a single-step fermentation process with a yield of 97.5% and final purity of 100%. A two-step fermentation approach was designed to allow conversion of a glucose-free product into a high-purity GOS by removing glucose with C. jadinii Y.00499 in the first step, and lactose by Kluyveromyces lactis DMB Kl-RK in the second step, resulting in a final product with a yield of 100% and a final purity of 92.1%. These results indicate that the selected nonconventional yeasts are promising candidates for the removal of non-GOS components from commercial crude GOS products by selective fermentation.