Several wood rotting fungi decolourized Remazol brilliant blue R (RBBR) and carminic acid (CA). Parallel activity of laccase in these fungi was studied. The addition of acetovanillone (AV) or acetosyringone (AS) inten...Several wood rotting fungi decolourized Remazol brilliant blue R (RBBR) and carminic acid (CA). Parallel activity of laccase in these fungi was studied. The addition of acetovanillone (AV) or acetosyringone (AS) intensified these processes: decolourization was more extensive than in the experiment omitting these compounds. At the presence of AS the decourization was more extensive than AV. However the level of decolorizing was relatively low in comparison to laccase activity on syringaldazine. The highly purified constitutive form of Cerrena unicolor and inducible form of Trametes versicolor laccases also destained both dyes. Anyway the addition of AV and AS improved the efficiency of dyes decolourization by wood rotting fungi and fungal laccase. Nitrogen starvation induced the laccase and decoloration activity in both organisms, irrespective of nitrogen availability. This fact indicates laccase not solely responsible for discoloration, and probably discoloration of dyes involves more than one mechanism.展开更多
利用过水解酶催化合成过氧乙酸,过氧乙酸原位氧化活性艳蓝KN-R脱色.在单因子试验的基础上,通过正交优化试验确定活性艳蓝KN-R的最佳脱色条件为:在5 m L反应体系中,最适p H 5.0,加酶量为20 U·反应-1,乙酸乙酯对过氧化氢的摩尔比率...利用过水解酶催化合成过氧乙酸,过氧乙酸原位氧化活性艳蓝KN-R脱色.在单因子试验的基础上,通过正交优化试验确定活性艳蓝KN-R的最佳脱色条件为:在5 m L反应体系中,最适p H 5.0,加酶量为20 U·反应-1,乙酸乙酯对过氧化氢的摩尔比率为40∶1和活性艳蓝KNR的浓度为80 mg·L-1.在此条件下反应6 h后,活性艳蓝KN-R的脱色率为81.11%,24 h后的脱色率为91.96%.在50倍放大试验中,该工艺24小时的脱色率为84.55%.展开更多
In this study,four biochars prepared from different crop residue waste i.e.sugarcane bagasse(SBB),coconut shell(CNB),paddy straw(PDB),and distilled waste of lemongrass(LGB)were evaluated for removal of Remazol Brillia...In this study,four biochars prepared from different crop residue waste i.e.sugarcane bagasse(SBB),coconut shell(CNB),paddy straw(PDB),and distilled waste of lemongrass(LGB)were evaluated for removal of Remazol Brilliant Blue R from the aqueous system.The RBBR adsorption capacities of biochar were 97-79%for SBB,99.9-99.47%for CNB,66.1-48%for PDB,and 78-68%for LGB,dominantly controlled by their aromaticity and mineral content.The Langmuir and Freundlich isotherms and pseudo-second-order kinetic models have described the chemisorption of RBBR on biochar surfaces.The thermodynamic data suggested that adsorption was spontaneous and endothermic.These biochars demonstrated excellent reusability(till four cycles with 50-61%regeneration).The purified water and biochar dye sludge demonstrated no phytotoxicity.The findings obtained in this study may provide supports for the potential of biochars for anionic dye removal from water and utilization of generated sludge for zero waste-producing technologies in the future.展开更多
文摘Several wood rotting fungi decolourized Remazol brilliant blue R (RBBR) and carminic acid (CA). Parallel activity of laccase in these fungi was studied. The addition of acetovanillone (AV) or acetosyringone (AS) intensified these processes: decolourization was more extensive than in the experiment omitting these compounds. At the presence of AS the decourization was more extensive than AV. However the level of decolorizing was relatively low in comparison to laccase activity on syringaldazine. The highly purified constitutive form of Cerrena unicolor and inducible form of Trametes versicolor laccases also destained both dyes. Anyway the addition of AV and AS improved the efficiency of dyes decolourization by wood rotting fungi and fungal laccase. Nitrogen starvation induced the laccase and decoloration activity in both organisms, irrespective of nitrogen availability. This fact indicates laccase not solely responsible for discoloration, and probably discoloration of dyes involves more than one mechanism.
文摘利用过水解酶催化合成过氧乙酸,过氧乙酸原位氧化活性艳蓝KN-R脱色.在单因子试验的基础上,通过正交优化试验确定活性艳蓝KN-R的最佳脱色条件为:在5 m L反应体系中,最适p H 5.0,加酶量为20 U·反应-1,乙酸乙酯对过氧化氢的摩尔比率为40∶1和活性艳蓝KNR的浓度为80 mg·L-1.在此条件下反应6 h后,活性艳蓝KN-R的脱色率为81.11%,24 h后的脱色率为91.96%.在50倍放大试验中,该工艺24小时的脱色率为84.55%.
基金financial support by the Department of Biotechnology(DBT),New Delhi(BT/PR24706/NER/95/822/2017)under the twinning program.
文摘In this study,four biochars prepared from different crop residue waste i.e.sugarcane bagasse(SBB),coconut shell(CNB),paddy straw(PDB),and distilled waste of lemongrass(LGB)were evaluated for removal of Remazol Brilliant Blue R from the aqueous system.The RBBR adsorption capacities of biochar were 97-79%for SBB,99.9-99.47%for CNB,66.1-48%for PDB,and 78-68%for LGB,dominantly controlled by their aromaticity and mineral content.The Langmuir and Freundlich isotherms and pseudo-second-order kinetic models have described the chemisorption of RBBR on biochar surfaces.The thermodynamic data suggested that adsorption was spontaneous and endothermic.These biochars demonstrated excellent reusability(till four cycles with 50-61%regeneration).The purified water and biochar dye sludge demonstrated no phytotoxicity.The findings obtained in this study may provide supports for the potential of biochars for anionic dye removal from water and utilization of generated sludge for zero waste-producing technologies in the future.
