多孔交联漆酶聚集体的制备及表征及其在三苯甲烷和活性染料脱色中的应用。

Preparation and characterization of porous cross linked laccase aggregates for the decolorization of triphenyl methane and reactive dyes.

机构信息

Department of Applied Science and Technology, Environmental Management Laboratory, A.C. Tech, Anna University, Chennai 600016, Tamil Nadu, India.

出版信息

Bioresour Technol. 2012 Sep;119:28-34. doi: 10.1016/j.biortech.2012.05.078. Epub 2012 May 24.

DOI:10.1016/j.biortech.2012.05.078

PMID:22728178

Abstract

The production of porous cross-linked enzyme aggregates (p-CLEAs) is a simple and effective methodology for laccase immobilization. A three-phase partitioning technique was applied to co-precipitate laccase and starch, followed by cross-linking with glutaraldehyde and removal of starch by α-amylase to create pores in the CLEAs. Scanning electron microscopy revealed a very smooth spherical structure with numerous large pores. The half-life of free laccase at 55°C was calculated to be 1.3h, while p-CLEAs did not lose any activity even after 14 h. p-CLEAs also exhibited improved storage stability, catalytic efficiency and could be recycled 15 times with 60% loss of activity. The catalysts decolorized triphenylmethane and reactive dyes by 60-70% at initial dye concentrations of 2 and 0.5 g L(-1), respectively, without any mediators. These results suggest the potential of CLEA technology in waste-water treatment.

摘要

多孔交联酶聚集体 (p-CLEAs) 的生产是一种将漆酶固定化的简单有效的方法。采用三相分配技术使漆酶和淀粉共沉淀，然后用戊二醛交联，并通过α-淀粉酶去除淀粉，在 CLEAs 中形成孔。扫描电子显微镜显示具有许多大孔的非常光滑的球形结构。游离漆酶在 55°C 下的半衰期计算为 1.3h，而 p-CLEAs 在 14 h 后仍没有失去任何活性。p-CLEAs 还表现出更好的储存稳定性、催化效率，并且可以重复使用 15 次，活性损失 60%。催化剂在初始染料浓度分别为 2 和 0.5 g L(-1)时，无需任何介体即可将三苯基甲烷和活性染料脱色 60-70%。这些结果表明 CLEA 技术在废水处理方面的潜力。

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多孔交联漆酶聚集体的制备及表征及其在三苯甲烷和活性染料脱色中的应用。

Preparation and characterization of porous cross linked laccase aggregates for the decolorization of triphenyl methane and reactive dyes.

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