Ultrasound-assisted esterification of valeric acid to alkyl valerates promoted by biosilicified lipases

A novel, environmentally friendly, and sustainable ultrasound-assisted methodology in the valorization of valeric acid to alkyl valerate using a biosilicified lipase from Candida antarctica is reported. This one-pot room temperature methodology of enzyme biosilicification leads to biosilicified lipa...

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Bibliographic Details
Published in:Frontiers in Chemistry
Main Authors: Cebrián-García S., Balu A.M., Luque R.
Format: Article in Journal/Newspaper
Language:English
Published: Frontiers Media S. A 2020
Subjects:
Biocatalysis
Biosilicification
Esterification
Lipases
Ultrasounds
Antarc*
Antarctica
Online Access:https://openrepository.ru/article?id=257879
Description
Summary:A novel, environmentally friendly, and sustainable ultrasound-assisted methodology in the valorization of valeric acid to alkyl valerate using a biosilicified lipase from Candida antarctica is reported. This one-pot room temperature methodology of enzyme biosilicification leads to biosilicified lipases with improved activity and reaction efficiency as compared to free enzymes. Yields in the ultrasound-promoted esterification of valeric acid was ca. 90% in 2 h with 15% m/v of biosilicified lipase (Bio-lipase; 616 U/g biocatalyst enzymatic activity) and a molar ratio 1:2 (valeric acid:ethanol), slightly superior to that observed by the free enzyme (75% conversion, 583U/g biocatalyst enzymatic activity). The reuse of enzymes in these conditions was tested and the results show a relatively good reusability of these biosilicified enzymes under the investigated conditions, particularly preserving fairly stable specific activities (616 vs. 430 U/g biocatalyst after four reuses). © 2018 Cebrián-García, Balu and Luque.

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