An efficient one-pot, 2-step flow bioprocess for the hydrolysis of hesperidin (HES) and rutin (RT), citrus rutinosyl flavonoids, has been developed for the obtainment of the corresponding aglycones. A commercially available & alpha;-rhamnosidase (RN) and an extremophilic home-made & beta;-glycosidase (HOR) have been co-immobilized on glyoxyl-agarose beads to prepare a high-performing multi-active biocatalyst (imm-RN-HOR). After the optimization of the reaction conditions in batch mode, a "flow switch" was applied, increasing the productivity (>99% m.c., 5 min), cost-efficiency and sustainability of the overall process. Due to the recovery and reuse of all the materials involved in the flow biotransformation, this strategy is effectively a zero-waste process.
Flow bioprocessing of citrus glycosides for high-value aglycone preparation
Pellis, A;
2023-01-01
Abstract
An efficient one-pot, 2-step flow bioprocess for the hydrolysis of hesperidin (HES) and rutin (RT), citrus rutinosyl flavonoids, has been developed for the obtainment of the corresponding aglycones. A commercially available & alpha;-rhamnosidase (RN) and an extremophilic home-made & beta;-glycosidase (HOR) have been co-immobilized on glyoxyl-agarose beads to prepare a high-performing multi-active biocatalyst (imm-RN-HOR). After the optimization of the reaction conditions in batch mode, a "flow switch" was applied, increasing the productivity (>99% m.c., 5 min), cost-efficiency and sustainability of the overall process. Due to the recovery and reuse of all the materials involved in the flow biotransformation, this strategy is effectively a zero-waste process.
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