Chitosan crosslinked with genipin as supporting matrix for biodegradation of synthetic dyes: Laccase immobilization and characterization

•A biocatalyst was designed by entrapping a fungal laccase (Tplac) within chitosan beads grafted cross-linker genipin.•Genipin can be considered as an alternative non-toxic cross-linker for laccase immobilization.•Improved pH, thermal, and storage stabilities of immobilized Tplac were obtained when...

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Bibliographic Details
Published in:Chemical engineering research & design 2018-04, Vol.132, p.664-676
Main Authors: Ma, Hong-Fei, Meng, Ge, Cui, Bao-Kai, Si, Jing, Dai, Yu-Cheng
Format: Article
Language:English
Subjects:
Beads
Biodegradation
Biodegradation capacity
Chitosan
Crosslinking
Decoloring
Dyes
Energy conservation
Fungal laccase
Genipin
Immobilization
Industrial applications
Laccase
Materials durability
Oxidation
Oxygen
Stability
Synthetic products
Systems stability
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Summary:•A biocatalyst was designed by entrapping a fungal laccase (Tplac) within chitosan beads grafted cross-linker genipin.•Genipin can be considered as an alternative non-toxic cross-linker for laccase immobilization.•Improved pH, thermal, and storage stabilities of immobilized Tplac were obtained when compared to the free counterpart.•Immobilized Tplac possessed excellent reuse potential, with >55% residual activity retained after 11 cycles.•Immobilized Tplac alone exhibited higher efficiency to biodegrade structurally different synthetic dyes. Being energy-saving and environmentally friendly, laccases could be introduced as green catalysts for industrial applications. A highly stable and efficient biocatalyst for degrading synthetic dyes was designed by entrapping a purified laccase from the white rot fungus Trametes pubescens within chitosan beads grafted by the cross-linker genipin. Maximum immobilization was obtained with 0.10% (v/v) genipin and 4.0UmL−1 of enzyme solution after activation and contact for 14h and 6h, respectively. Improved pH, thermal, and storage stabilities of the immobilized laccase were obtained when compared with the free counterpart. The chitosan laccase system exhibited a residual activity of >55% after 11 cycles, demonstrating better durability than the free laccase, which reflected the suitability of genipin as a cross-linker for laccase immobilization. The activity loss of free laccase after 30 days of storage at 4°C was 84.43%, whereas the chitosan laccase system had a loss of 42.86% during the same period. The immobilized laccase alone more efficiently decolorized structurally different synthetic dyes without requiring oxidizing mediators to function in its biodegradation capability. These findings are indicative that the stability and biodegradation capability of fungal laccase can be enhanced by entrapping the enzyme within genipin-activated chitosan beads.
ISSN:0263-8762
1744-3563
DOI:10.1016/j.cherd.2018.02.008