In situ immobilization of Candida antarctica B lipase in polyurethane foam support

In situ immobilization of Candida antarctica B lipase in polyurethane foam support

[Display omitted] •Candida antarctica B lipase immobilized in polyurethane foam by confinement method.•Potential application of the derivative in synthesis reactions.•The immobilization process increased 535% the activity for enzymatic derivative.•CALB immobilization is a promising technique, simple...

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Bibliographic Details
Published in:Journal of molecular catalysis. B, Enzymatic Vol. 124; pp. 52 - 61
Main Authors: Nyari, Nadia Ligianara D., Fernandes, Ilizandra A., Bustamante-Vargas, Cindy E., Steffens, Clarisse, de Oliveira, Débora, Zeni, Jamile, Rigo, Elisandra, Dallago, Rogério M.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-02-2016
Subjects:
Immobilization
Lipase (CALB)
Polyurethane
Reuse
Stability
Immobilization
Stability
Lipase (CALB)
Polyurethane
Reuse
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Summary:[Display omitted] •Candida antarctica B lipase immobilized in polyurethane foam by confinement method.•Potential application of the derivative in synthesis reactions.•The immobilization process increased 535% the activity for enzymatic derivative.•CALB immobilization is a promising technique, simple and with low cost. Candida antarctica B (CALB) lipase was immobilized using polyurethane (PU) foam as support by confinement method. This can be a promising technique due to the low cost of the support, simple procedure of immobilization and the possibility of using the derivative as catalyst for the food industry reactions. CALB immobilization on PU was performed using 6mL polyol and 4mL isocyanate (60–40%, v/v), with 1mL of enzymatic solution (0.8g enzyme in 5mL distilled water). The immobilization process resulted in a 535% increase in activity for the enzymatic derivative. The enzyme was stable for 360 days at room (10–25°C) and low (2–8°C) temperatures, for 300 days at 40 and 60°C and for 150 days at 80°C in wet ambient conditions. The synthesis of geranyl propionate and ethyl oleate catalyzed by the immobilized derivative presented conversions of around 97 and 83%, respectively. The immobilized CALB in PU was reused consecutively different behavior occurred which stored in dry ambient conditions at different temperatures (room: 10–25°C, refrigeration: 2–8°C and 40°C) resisted 30 cycles, for both forms of storage, keeping more than 87, 95 and 83% of its activity, respectively.
ISSN:1381-1177
1873-3158
DOI:10.1016/j.molcatb.2015.12.003