Enhanced catalytic activity of new acryloyl crosslinked cellulose dialdehyde-nitrilase Schiff base and its reduced form for nitrile hydrolysis

Immobilization of enzymes to improve their catalytic properties is an attractive protocol which makes them suitable candidates to meet various industrial demands. Present study describes the synthesis of new acryloyl crosslinked cellulose dialdehyde (ACCD) for nitrilase immobilization. Nitrilase was...

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Veröffentlicht in:International journal of biological macromolecules 2019-06, Vol.131, p.117-126
Hauptverfasser: Jamwal, Shivani, Dautoo, Umesh K., Ranote, Sunita, Dharela, Rohini, Chauhan, Ghanshyam S.
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Sprache:eng
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Zusammenfassung:Immobilization of enzymes to improve their catalytic properties is an attractive protocol which makes them suitable candidates to meet various industrial demands. Present study describes the synthesis of new acryloyl crosslinked cellulose dialdehyde (ACCD) for nitrilase immobilization. Nitrilase was immobilized onto ACCD via Schiff base formation i.e. imine linkages (-CH=N-). Effect of different operational parameters viz. temperature, pH and substrate concentration on the free and the immobilized nitrilases were evaluated by hydrolysis of mandelonitrile. Immobilization resulted into enhanced catalytic activity of nitrilase under different operating conditions of temperature and pH. The optimum temperature and pH for immobilized forms of nitrilase was obtained to be 55 °C and 8.0 which was higher than its free form (40 °C, 6.0). Immobilized nitrilase also exhibited good thermal and storage stability over the free form and is reusable up to sixteen repeat cycles with an appreciable retention activity. •New acryloyl crosslinked cellulose dialdehyde (ACCD)-nitrilase Schiff base synthesized•Immobilization results into enhanced thermal and pH stability•Nitrilase having reduced Schiff base linkage exhibited enormous increase in its stability•Both immobilized forms exhibited good storage stability and recycled up to sixteen repeat cycles
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2019.03.034