Decolorization of dyes using white-rot fungi and radical-generating reactions |
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| Authors: | František Nerud Petr Baldrian Ivana Eichlerová Ve˘ra Merhautová Jirí Gabriel Ladislav Homolka |
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| Affiliation: | 1. Laboratory of Biochemistry of Wood-rotting Fungi, Institute of Microbiology ASCR, Vídeňská 1083, 14220, Praha 4, Czech Republicnerud@biomed.cas.cz;3. Laboratory of Biochemistry of Wood-rotting Fungi, Institute of Microbiology ASCR, Vídeňská 1083, 14220, Praha 4, Czech Republic |
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| Abstract: | Decolorization of synthetic dyes was performed using cultures of white-rot fungi producing ligninolytic enzymes and radical-generating reactions that could be involved in the mechanism of fungal decolorization. Among the white-rot fungi tested, Pleurotus ostreatus exhibited the highest decolorization rates, and also the highest production of laccase and Mn-peroxidase. P. ostreatus strain f6 gave 69% decolorization of Eosin Yellowish, 96% of Evans Blue, 75% of Phenol Red (all at 1 mM) and 88% of Poly B-411 (20 ppm) during a 14-day treatment. Treatment with Cu/succinic acid/H2O2 resulted in 96% decolorization of Evans Blue and Poly B-411 within 24 h. However, only 48% and 2% decolorization was achieved with Phenol Red and Eosin Yellowish, respectively. Similar decolorization rates were also obtained when Cu was replaced with Co. The results show that treatment of dye-containing solutions with both fungal cultures and biomimetic catalytic reactions results in decolorization. |
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| Keywords: | Hydroxyl radicals Ligninolytic enzymes Pleurotus ostreatus Succinic acid Synthetic dyes White-rot fungi |
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