Biodegradation of industrial dyes by a solvent, metal and surfactant-stable extracellular bacterial laccase

Several industrial activities release highly recalcitrant and dangerous dyes into the environment. The use of laccases to catalyze biooxidations represents an important alternative to dye effluent treatments. This study reports on the characterization of extracellular laccase of P. vulgaris ATCC 689...

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Bibliographic Details
Published in:Biocatalysis and agricultural biotechnology 2018-04, Vol.14, p.221-227
Main Authors: Britos, Claudia N., Gianolini, Julian E., Portillo, Hugo, Trelles, Jorge A.
Format: Article
Language:English
Subjects:
Biocatalysis
Biodegradation
Cu-alginate
Dyes
Immobilization
Laccase
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Summary:Several industrial activities release highly recalcitrant and dangerous dyes into the environment. The use of laccases to catalyze biooxidations represents an important alternative to dye effluent treatments. This study reports on the characterization of extracellular laccase of P. vulgaris ATCC 6896. This new enzyme was stable for more than 6 h at 60 °C and retained its activity completely under acidic and alkaline conditions. The P. vulgaris laccase showed a high tolerance to enzymatic inhibitors such as sodium azide and organic solvents (acetonitrile, ethanol and methanol), and its activity increased up to 5 times with the addition of Fe2+, Cu2+, Zn2+ or surfactants. Finally, the P. vulgaris laccase was stabilized by immobilization in Cu-alginate gels. The derivatives showed significantly higher thermostability than the free enzyme, and extended shelf life of up to 500 h. This biocatalyst was used to decolorize bromothymol blue (59%), Coomassie brilliant blue R (72%), methyl violet 10B (52%), Remazol brilliant blue R (51%) and trypan blue (85%) at short reaction times without the addition of mediators, and reused up to 160 cycles without loss of efficiency. This enzymatic biocatalyst could be effectively used in sewage treatment due to its ability to decolorize recalcitrant dyes without the addition of redox mediators, and its high thermal and chemical stability. [Display omitted] •P. vulgaris produces a heat- and alkaline-resistant extracellular laccase.•Laccase activity is significantly improved by metals and ionic surfactants.•The enzyme was tolerant to inhibitors and solvents present in sewage effluents.•Immobilized laccase decolorized dyes at only 3 h of reaction without redox mediator.•The biocatalyst developed was thermostable and can be reused up to 160 cycles.
ISSN:1878-8181
1878-8181
DOI:10.1016/j.bcab.2018.03.015