Biochemical characterization of three phase partitioned laccase and its application in decolorization and degradation of synthetic dyes

“…Sometimes the combination of electrochemical technology and photocatalysis has been adopted for avail unique advantages. For example, the chemical synergy process of photocatalysis and electrochemicals can give increased discoloration and the added benefit of the removal of chemical oxygen demand that may be derived from existence of the salt in solution, which otherwise is harmful to perform sole photo catalysis [82][83][84][85][86][87][88][89][90]. Conversely, electroFenton process requires no addition of chemicals other than the catalytic amount of Fe +2 , that is produced from H 2 O 2 in situ, thereby avoiding the transportation of the dangerous oxidant.…”

Industrial Wastewater Treatment: A Challenging Task in the Industrial Waste Management

“…Sometimes the combination of electrochemical technology and photocatalysis has been adopted for avail unique advantages. For example, the chemical synergy process of photocatalysis and electrochemicals can give increased discoloration and the added benefit of the removal of chemical oxygen demand that may be derived from existence of the salt in solution, which otherwise is harmful to perform sole photo catalysis [82][83][84][85][86][87][88][89][90]. Conversely, electroFenton process requires no addition of chemicals other than the catalytic amount of Fe +2 , that is produced from H 2 O 2 in situ, thereby avoiding the transportation of the dangerous oxidant.…”

Industrial Wastewater Treatment: A Challenging Task in the Industrial Waste Management

“…According to their results, the optimum pH was shown to be 4.5. Kumar et al (2012) reported that optimum pH was 4.0 for laccase using ABTS as a substrate, and the lower relative activity was obtained at pH 7.0. Furthermore, the majority of fungal laccases have been found to function as laccase under mild acidic condition (pH 4-6).…”

“…The catalytic activity of fungal laccases is optimum in the temperature range between 30 and 55°C. Kumar et al (2012) reported that optimum temperature was 45°C for laccase, and that the laccase was active over a broad range 75% and 2.90 U/g for magnetic chitosan-clay beads. Several reports have described new support for laccase immobilization.…”

Characterization and immobilization ofTrametes versicolorlaccase on magnetic chitosan–clay composite beads for phenol removal

“…Of which, there are 3 enzymes most likely related to decolorization MG: laccase, catalase and catalase/peroxidase HPI (Table. 2) (Kalyani et al, 2012;Muhammad et al 2012). Especially, the laccase has been used for the removal of MG from aqueous solution in previous reports (Kumar et al, 2012;Sinirlioglu et al 2013). …”

Draft genome sequence of Pseudomonas oleovorans strain MGY01 isolated from deep sea water