AI Article Synopsis
- Recent research explored the use of a specific enzyme (CsCE) from Caldicellulosiruptor saccharolyticus to produce lactulose and epilactose from lactose in milk at two different temperatures (50°C and 8°C).
- At 50°C, a higher amount of CsCE resulted in the production of 57.7% lactulose and 15.5% epilactose after 24 hours, while at the cooler 8°C, the enzyme still effectively produced 56.7% lactulose and 13.6% epilactose after 72 hours.
- This study is significant as it's the first to demonstrate the direct enzymatic production of lactulose in milk at temperatures suitable
Article Abstract
The enzymatic production of lactulose was described recently through conversion of lactose by a thermophilic cellobiose 2-epimerase from Caldicellulosiruptor saccharolyticus (CsCE). In the current study, we examined the application of CsCE for lactulose and epilactose production in milk (1.5% fat). The bioconversions were carried out in stirred reaction vessels at 2 different temperatures (50 and 8°C) at a scale of 25 mL volume. At 50°C, 2 highly different CsCE amounts were investigated for the time course of formation of lactulose and epilactose. The conversion of milk lactose (initial lactose content of 48.5 ± 2.1 g/L) resulted in a final yield of 57.7% (28.0 g/L) lactulose and 15.5% (7.49 g/L) epilactose in the case of the approximately 9.5-fold higher CsCE amount (39.5 µkat epilactose, 50°C) after 24 h. Another enzymatic lactose conversion was carried out at low 8°C, an industrially relevant temperature for milk processing. Although the CsCE originated from a thermophilic microorganism, it was still applicable at 8°C. This enzymatic lactose conversion resulted in 56.7% (27.5 g/L) lactulose and 13.6% (6.57 g/L) epilactose from initial milk lactose after 72 h. The time courses of lactose conversion by CsCE suggested that first epilactose formed and afterward lactulose via epilactose. To the best of our knowledge, this is the first time that an enzyme has produced lactulose directly in milk in situ at industrially relevant temperatures.
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