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电子束诱导漆酶固定在多孔载体上用于废水处理应用。

Electron beam-induced immobilization of laccase on porous supports for waste water treatment applications.

作者信息

Jahangiri Elham, Reichelt Senta, Thomas Isabell, Hausmann Kristin, Schlosser Dietmar, Schulze Agnes

机构信息

Helmholtz Centre for Environmental Research, Permoserstr. 15, D-04318 Leipzig, Germany.

Leibniz Institute of Surface Modification, Permoserstr. 15, D-04318 Leipzig, Germany.

出版信息

Molecules. 2014 Aug 8;19(8):11860-82. doi: 10.3390/molecules190811860.

Abstract

The versatile oxidase enzyme laccase was immobilized on porous supports such as polymer membranes and cryogels with a view of using such biocatalysts in bioreactors aiming at the degradation of environmental pollutants in wastewater. Besides a large surface area for supporting the biocatalyst, the aforementioned porous systems also offer the possibility for simultaneous filtration applications in wastewater treatment. Herein a "green" water-based, initiator-free, and straightforward route to highly reactive membrane and cryogel-based bioreactors is presented, where laccase was immobilized onto the porous polymer supports using a water-based electron beam-initiated grafting reaction. In a second approach, the laccase redox mediators 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS) and syringaldehyde were cross-linked instead of the enzyme via electron irradiation in a frozen aqueous poly(acrylate) mixture in a one pot set-up, yielding a mechanical stable macroporous cryogel with interconnected pores ranging from 10 to 50 µm in size. The membranes as well as the cryogels were characterized regarding their morphology, chemical composition, and catalytic activity. The reactivity towards waste- water pollutants was demonstrated by the degradation of the model compound bisphenol A (BPA). Both membrane- and cryogel-immobilized laccase remained highly active after electron beam irradiation. Apparent specific BPA removal rates were higher for cryogel- than for membrane-immobilized and free laccase, whereas membrane-immobilized laccase was more stable with respect to maintenance of enzymatic activity and prevention of enzyme leakage from the carrier than cryogel-immobilized laccase. Cryogel-immobilized redox mediators remained functional in accelerating the laccase-catalyzed BPA degradation, and especially ABTS was found to act more efficiently in immobilized than in freely dissolved state.

摘要

多功能氧化酶漆酶被固定在多孔载体上,如聚合物膜和冷冻凝胶,目的是在生物反应器中使用这种生物催化剂来降解废水中的环境污染物。除了具有用于支撑生物催化剂的大表面积外,上述多孔系统还为废水处理中的同步过滤应用提供了可能性。本文介绍了一种“绿色”的水基、无引发剂且直接的方法来制备高活性的基于膜和冷冻凝胶的生物反应器,其中漆酶通过水基电子束引发的接枝反应固定在多孔聚合物载体上。在第二种方法中,漆酶氧化还原介质2,2'-联氮双(3-乙基苯并噻唑啉-6-磺酸)(ABTS)和丁香醛在一锅法设置的冷冻聚丙烯酸水混合物中通过电子辐照交联,而不是酶,得到一种机械稳定的大孔冷冻凝胶,其相互连接的孔尺寸范围为10至50微米。对膜和冷冻凝胶的形态、化学成分和催化活性进行了表征。通过模型化合物双酚A(BPA)的降解证明了对废水污染物的反应活性。电子束辐照后,膜固定化和冷冻凝胶固定化的漆酶均保持高活性。冷冻凝胶固定化漆酶的表观比BPA去除率高于膜固定化和游离漆酶,而膜固定化漆酶在维持酶活性和防止酶从载体泄漏方面比冷冻凝胶固定化漆酶更稳定。冷冻凝胶固定化的氧化还原介质在加速漆酶催化的BPA降解方面仍然起作用,特别是发现ABTS在固定化状态下比在自由溶解状态下更有效。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d14/6270853/a062d1281128/molecules-19-11860-g001.jpg

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