Screening of Conditions for Manganese Peroxidase Production from White Rot Fungi (Pleurotus djamor)

E. G, E. I., Oparaji H.
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Abstract

The need for alternative and environmental friendly methods of waste clean-up has led to the use of enzymes in bioremediation. In this study, white rot fungi were isolated from decaying plant parts using standard microbiology and biochemical techniques. The isolated fungal mycelial were identified and screened using standard substrates (2, 6-DMP) to determine their capability for production of Manganese peroxidase. Pure manganese peroxidase was achieved after four distinct purification phases. Crude extract of the homogenate proteins obtained through optimized submerged fermentation system were precipitated using ammonium sulphate salt. Ammonium sulphate of 60% concentrated at pH 4.5 precipitated protein with highest Manganese peroxidase activity (322 U/mg). The precipitated proteins was desalted through dialysis for twelve hours (12hrs) with buffer exchange at interval of six hours (6 hrs) and activity of 343.91 U/mg was recorded afterwards. DEAE-cellulose was used for the ion exchange purification of the dialyzed protein, salt (NaCl) gradients of 0.3-0.6 M was found best in washing off the bound protein from the exchange resin and activity of 434.18 U/mg was recorded from the pooled fraction tubes. sephadex G-100 was used for separation of the proteins into molecular sizes and weights. 2.8 purification folds of the enzyme were gotten after ion exchange (DEAE-cellulose) and gel filtration (sephadex G-100) with percentage yield of 2.20%. Specific activity of the enzyme increased to 602.00% after gel filtration. The partial purified enzyme was further characterized for determination of optimal pH (4.5), temperature (40 °C) and kinetic properties K M of 3.4 mM and V MAX of 250 µmol/min.
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白腐菌(Pleurotus djamor)产锰过氧化物酶条件的筛选
由于需要替代和环境友好的废物清理方法,因此在生物修复中使用酶。本研究采用标准的微生物学和生化技术从腐烂的植物中分离出白腐菌。利用标准底物(2,6 - dmp)对分离的真菌菌丝体进行鉴定和筛选,以确定其生产过氧化物锰酶的能力。经过四个不同的纯化阶段,获得了纯锰过氧化物酶。将优化后的深层发酵体系得到的蛋白匀浆粗提物用硫酸铵进行沉淀。浓度为60%,pH为4.5的硫酸铵沉淀蛋白,锰过氧化物酶活性最高(322 U/mg)。沉淀蛋白经透析12小时(12hrs)脱盐,每隔6小时(6小时)交换缓冲液,测得活性为343.91 U/mg。采用deae -纤维素对透析蛋白进行离子交换纯化,在0.3 ~ 0.6 M的盐梯度范围内洗涤效果最好,池馏管的活性为434.18 U/mg。sephadex G-100用于分离蛋白质的分子量和分子量。经离子交换(DEAE-cellulose)和凝胶过滤(sephadex G-100)得到2.8个纯化褶,得率为2.20%。经凝胶过滤后,酶的比活性提高到602.00%。对部分纯化酶进行了进一步表征,确定了最佳pH(4.5)、温度(40°C)和动力学性质K M为3.4 mM, V MAX为250µmol/min。
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