Biocatalytic Synthesis of the Rare Sugar Kojibiose: Process Scale-Up and Application Testing
Koen Beerens, Karel De Winter, Davy Van de Walle, Charlotte Grootaert, Senem Kamiloğlu, Lisa Miclotte +4 more
Journal of Agricultural and Food Chemistry
Abstract
Cost-efficient (bio)chemical production processes are essential to evaluate the commercial and industrial applications of promising carbohydrates and also are essential to ensure economically viable production processes. Here, the synthesis of the naturally occurring disaccharide kojibiose (2-O-α-d-glucopyranosyl-d-glucopyranoside) was evaluated using different Bifidobacterium adolescentis sucrose phosphorylase variants. Variant L341I_Q345S was found to efficiently synthesize kojibiose while remaining fully active after 1 week of incubation at 55 °C. Process optimization allowed kojibiose production at the kilogram scale, and simple but efficient downstream processing, using a yeast treatment and crystallization, resulted in more than 3 kg of highly pure crystalline kojibiose (99.8%). These amounts allowed a deeper characterization of its potential in food applications. It was found to have possible beneficial health effects, including delayed glucose release and potential to trigger SCFA production. Finally, we compared the bulk functionality of highly pure kojibiose to that of sucrose, hereby mapping its potential as a new sweetener in confectionery products.
Extracted Claims
4 claims extracted from this paper into the knowledge graph
kojibiose triggers SCFA production
“It was found to have possible beneficial health effects, including delayed glucose release and potential to trigger SCFA production.”
yeast treatment and crystallization produces highly pure crystalline kojibiose
“simple but efficient downstream processing, using a yeast treatment and crystallization, resulted in more than 3 kg of highly pure crystalline kojibiose (99.8%).”
Bifidobacterium adolescentis sucrose phosphorylase variant L341I_Q345S synthesizes kojibiose
“Variant L341I_Q345S was found to efficiently synthesize kojibiose while remaining fully active after 1 week of incubation at 55 °C.”