Enzymatic Decolorization of Remazol Brilliant Blue Royal (RB 19) textile dye by White Rot Fungi

Journal of Applied and Advanced Research Pub Date : 2019-01-27 DOI:10.21839/JAAR.2019.V4I1.260

Hamisu Afiya, Erkurt Emrah Ahmet, M. M. Shah

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引用次数: 8

Abstract

Synthetic dyes are widely used by different industries with over 7 ×105 metric tons produce globally each year. Dyes pose adverse effects including chemical oxygen demand, visual pollution, cytotoxicity, genotoxicity, mutagenicity and carcinogenicity on various types of living organisms. The versatile white rot fungi (basidiomycetes fungi) have developed specialized ligninolytic enzymes for reductive cleavage of dyes and xenobiotics. The present study optimized the decolorization of Remazol brilliant blue royal (RBBR) dye by enzymatic extracts of Coriolus versicolor and Pleurotusostreatus. Experiments were carried out by varying one parameter i.e. pH (2.5-6.5), temperature (30oC-60oC), enzyme activity (3.3U-20U), dye concentration (10mg/L-125mg/L) and time (0-480mins), while others constant to study its effects on decolorization of RBBR. From the results obtained, the optimum conditions for decolorization of RBBR by extracts of C. versicolor and P. ostreatus were pH 4.0, temperature of 300C, enzyme activity 20U, dye concentrations of 100mg/L and 50mg/L for C. versicolor and P. ostreatus respectively at the end of 480 minutes. At the optimized conditions, decolorizations for C. versicolor and P. ostreatus were 80.42% and 70.42% respectively. Highest laccase activity (19.50U) was recorded in C. versicolor compare to P. ostreatus (1.41U).

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白腐菌对雷马佐亮蓝皇家(rb19)纺织染料的酶解脱色研究

合成染料广泛应用于不同的行业，全球每年生产超过7 ×105公吨。染料对多种生物具有化学需氧量、视觉污染、细胞毒性、基因毒性、诱变性和致癌性等不良影响。多用途的白腐真菌(担子菌)已经开发出专门的木质素分解酶，用于染料和异种生物的还原裂解。本研究优化了花椒和侧耳的酶提物对雷马佐亮蓝皇家染料(RBBR)的脱色效果。通过改变pH(2.5 ~ 6.5)、温度(30oc ~ 60oc)、酶活性(3.3 u ~ 20u)、染料浓度(10mg/L ~ 125mg/L)和时间(0 ~ 480min)等参数，研究其对RBBR脱色的影响。结果表明，花楸提取物和花楸提取物脱色RBBR的最佳条件为:pH 4.0、温度300C、酶活性20U、染料浓度分别为100mg/L和50mg/L，脱色480 min。在优化的条件下，对花椒和青霉的脱色率分别为80.42%和70.42%。漆酶活性最高的品种是花椒(19.50U)，而青椒(1.41U)的漆酶活性最高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Applied and Advanced Research

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