Add to ORKGAzo dyes are commonly used in textile and paper industries. However, its improper disposal often results in polluting water bodies. Azo dyes can cause adverse health effects because of its carcinogenic properties. Various methods to remove azo dyes from water have been proposed, including biological methods such as biosorption and biodegradation. Biosorption and biodegradation were done by using bacteria, yeast or mold. In general, yeasts have some advantages for azo dyes degradation due to its Faster growth compared to mold and better resistance against unfavorable environment compared to bacteria. Previously, we observed that yeast Pichia sp. have the ability to degrade Congo red, an azo dye. However, information regarding biodegradation ...
The mehcanism of azo dyes decolorization by Candida sp. MK-1, Aeromonas sp. B-5 and Actinobacillus s...
Funding Information: The authors express their sincere appreciation to the Researchers Supporting Pr...
The culture of Trametes gibbosa sp. white-rot fungi (WRF) 3 under mesophilic conditions can lead to ...
Congo red is one of the best known and used azo dyes which has two azo bonds (-N=N-) chromophore in ...
Fifteen azo dyes were subjected to microbial degradation by four fungal strains and their mixtures a...
The discharge of textile effluents enriched with reactive azo dyes is of critical importance owing t...
Extensive use of recalcitrant azo dyes in textile and paper industries poses a direct threat to the ...
A detailed characterization of degraded metabolites is essential for understanding the mechanisms of...
The use of dyes dates to ancient times and has increased due to population and industrial growth, le...
Several local microorganisms were isolated and screened for their capabilities to decolorize selecte...
In the present study, Chryseobacterium geocarposphaerae DD3 isolated from textile industry dye efflu...
Wastewater from textile industries is one of the major pollutants of water body. The largest compone...
The purpose was to investigate a simultaneous biodegradation of the recalcitrant monoazo dye Reactiv...
Aims: Novel azo dye-degrading bacterium T312D9 strain has been isolated from Abou Quir Gulf, Alexand...
AbstractAzo dyes are an important class of environmental contaminants and are characterized by the p...
The mehcanism of azo dyes decolorization by Candida sp. MK-1, Aeromonas sp. B-5 and Actinobacillus s...
Funding Information: The authors express their sincere appreciation to the Researchers Supporting Pr...
The culture of Trametes gibbosa sp. white-rot fungi (WRF) 3 under mesophilic conditions can lead to ...
Congo red is one of the best known and used azo dyes which has two azo bonds (-N=N-) chromophore in ...
Fifteen azo dyes were subjected to microbial degradation by four fungal strains and their mixtures a...
The discharge of textile effluents enriched with reactive azo dyes is of critical importance owing t...
Extensive use of recalcitrant azo dyes in textile and paper industries poses a direct threat to the ...
A detailed characterization of degraded metabolites is essential for understanding the mechanisms of...
The use of dyes dates to ancient times and has increased due to population and industrial growth, le...
Several local microorganisms were isolated and screened for their capabilities to decolorize selecte...
In the present study, Chryseobacterium geocarposphaerae DD3 isolated from textile industry dye efflu...
Wastewater from textile industries is one of the major pollutants of water body. The largest compone...
The purpose was to investigate a simultaneous biodegradation of the recalcitrant monoazo dye Reactiv...
Aims: Novel azo dye-degrading bacterium T312D9 strain has been isolated from Abou Quir Gulf, Alexand...
AbstractAzo dyes are an important class of environmental contaminants and are characterized by the p...
The mehcanism of azo dyes decolorization by Candida sp. MK-1, Aeromonas sp. B-5 and Actinobacillus s...
Funding Information: The authors express their sincere appreciation to the Researchers Supporting Pr...
The culture of Trametes gibbosa sp. white-rot fungi (WRF) 3 under mesophilic conditions can lead to ...