Abstract
Discharge of textile dyes into the environment poses a significant threat. They are poorly biodegradable and toxic due to their complex composition and aromatic structures. In the search for alternatives to physical and chemical treatments, biodegradation of synthetic dyes by various microbes is emerging as an effective and promising approach. The decolorization of synthetic dyes by yeast co-cultures and consortia from leaves and fruit peels was assessed at a 50 μg/mL dye concentration. Yeasts isolates from leaves and fruit peels were screened for potential decolorization of synthetic dyes at 25-50 μg/mL. Decolorization parameters were optimized for synergistic properties and development of yeast co-cultures and consortium. Possible decolorization reactions were initially assessed by cell immobilization, sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), and Fourier transform infrared spectroscopy (FTIR) analysis. A total of 16 organisms were isolated from rose, mango, and pineapple leaves and pineapple fruit peels. Only 4 organisms showed high decolorization of four synthetic dyes: Direct Pink B, Disperse Yellow 5G, Direct Fast Orange S, and Reactive Turquoise Blue G. The optimum condition for best decolorizers of selected dyes at 50 μg/mL were Candida guilliermondii (Y011) for Direct Pink B at pH 9, 37°C; C. dubliniensis (Y014) for Disperse Yellow 5G at pH 4, 25°C; C. guilliermondii (Y004) for Direct Fast Orange S at pH 7, 25°C, and C. famata (Y003) for Reactive Turquoise Blue G at pH 4, 35°C. None of the 4 yeast isolates showed any antagonistic activity when subjected to the lawn-spotting method for the formation of co-cultures and consortium. The best co-cultures obtained 61% decolorization of Direct Pink B, 65% decolorization of Disperse Yellow 5G, 41% decolorization of Direct Fast Orange S, and 50-51% decolorization of Reactive Turquoise Blue G. Immobilized yeast cells were active in decolorizing the dyes and SDS-PAGE analysis confirmed the presence of an extracellular protein. The results of FTIR also showed changes in the functional group of Direct Pink B, but minimal changes in the functional groups of Reactive Turquoise Blue G, indicating a different decolorization pathway. Yeasts in co-cultures and consortia can decolorize toxic synthetic dyes through different decolorization pathways such as enzyme degradation and bioaccumulation. This technique may have a use in the treatment of wastewater systems.
Highlights
The textile industry has flourished along with the rapid increase in modernization and urbanization of industries in terms of yearly production
Comparative analysis of the Fourier transform infrared spectroscopy (FTIR) results and the yeast cell image under microscope showed that the functional group of Direct Pink B was changed after treatment with C. guilliermondii (Y011), while the image under the microscope showed that there was no visible intracellular accumulation. These results indicate that the C. guilliermondii (Y011) mechanism of action in treating toxic dyes was not intracellular biosorption or intracellular degradation, but degradation with the help of an enzyme that was released extracellularly by the yeast cells in its environment, since there was no observed biosorption in the tests using immobilized and free yeast cells in dye decolorization
The top four yeast isolates obtained from rose, mango and pineapple leaves and pineapple fruit peels have the ability to decolorize synthetic textile dyes such as Direct Pink B, Direct Fast Orange S, Disperse Yellow 5G, and Reactive Turquoise Blue G
Summary
The textile industry has flourished along with the rapid increase in modernization and urbanization of industries in terms of yearly production. Discharge of textile dyes into the environment poses a significant threat They are poorly biodegradable and toxic due to their complex composition and aromatic structures. The decolorization of synthetic dyes by yeast co-cultures and consortia from leaves and fruit peels was assessed at a 50 μg/mL dye concentration. 4 organisms showed high decolorization of four synthetic dyes: Direct Pink B, Disperse Yellow 5G, Direct Fast Orange S, and Reactive Turquoise Blue G. Yeasts in co-cultures and consortia can decolorize toxic synthetic dyes through different decolorization pathways such as enzyme degradation and bioaccumulation. This technique may have a use in the treatment of wastewater systems. Keywords. dyes, biodegradation, decolorization, microbial consortia J Health Pollution 10: 42–55 (2016)
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