Abstract
Engineered laccases represent an eco-friendlier and robust biocatalytic tool for the treatment of dye-harboring textile wastewater. This study investigates the immobilization of purified laccase from Pleurotus sapidus onto firm-quality spherical Ca-alginate beads by a cross-linking approach. Sodium alginate at an optimal concentration of 4% (w/v) furnished the highest immobilization efficiency (69%). EDX analysis confirmed the detection of copper in the laccase-incorporated alginate beads. The optimum pH for free laccase was 3.0, while the Ca-alginate-Lac showed the maximum enzyme activity (440.2 U/mL) at pH 5.0. In contrast to a free enzyme (40 degrees C), immobilized laccase performed best at an elevated temperature of 65 degrees C. The Km and V-max values in the case of free and Ca-alginate immobilized enzymes were 114 mu M, 370 U/mL, and 123 mu M, 548 U/mL, respectively. Immobilized laccase catalyzed a highly efficient decolorization of various reactive and disperse dye pollutants and recorded in the range of 86.19-91.01%. The COD and TOC levels were substantially reduced to 91.90-94.94 and 77.01-93.29%, respectively, in the maximally degraded dye solutions. Therefore, immobilization of laccase on Ca-alginate beads offers a cost-effective and facile method for environmental remediation applications.
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