Bilal Muhammad, Asgher Muhammad, Iqbal Hafiz M N, Hu Hongbo, Wang Wei, Zhang Xuehong
State Key Laboratory of Microbial Metabolism, and School of Life Sciences and Biotechnology, Shanghai Jiao Tong University, Shanghai 200240, China; Industrial Biotechnology Laboratory, Department of Biochemistry, University of Agriculture, Faisalabad 38040, Pakistan.
Industrial Biotechnology Laboratory, Department of Biochemistry, University of Agriculture, Faisalabad 38040, Pakistan.
Int J Biol Macromol. 2017 Sep;102:582-590. doi: 10.1016/j.ijbiomac.2017.04.065. Epub 2017 Apr 19.
In this study, the matrix-entrapment technique was adopted to immobilize a novel manganese peroxidase (MnP). Agarose beads developed from 3.0% agarose concentration furnished the preeminent immobilization yield (92.76%). The immobilized MnP exhibited better resistance to changes in the pH and temperature as compared to the free counterpart, with optimal conditions being pH 6.0 and 45°C. Thermal and storage stability characteristics were significantly improved after immobilization, and the immobilized-MnP displayed higher tolerance against different temperatures than free MnP state. After 72h, the insolubilized MnP retained its activity up to 41.2±1.7% and 33.6±1.4% at 55°C and 60°C, respectively, and 34.3±1.9% and 22.0±1.1% activities at 65°C and 70°C, respectively, after 48h of the incubation period. A considerable reusability profile was recorded with ten consecutive cycles. Moreover, to explore the industrial applicability, the agarose-immobilized-MnP was tested for bioremediation of textile industry effluent purposes. After six consecutive cycles, the tested effluents were decolorized to different extents (with a maximum of 98.4% decolorization). In conclusion, the remarkable bioremediation potential along with catalytic, thermo-stability, reusability, as well as storage stability features of the agarose-immobilized-MnP reflect its prospects as a biocatalyst for bioremediation and other industrial applications.
在本研究中,采用基质包埋技术固定化一种新型锰过氧化物酶(MnP)。由3.0%琼脂糖浓度制成的琼脂糖珠提供了卓越的固定化产率(92.76%)。与游离的MnP相比,固定化的MnP对pH和温度变化表现出更好的抗性,最佳条件为pH 6.0和45°C。固定化后,热稳定性和储存稳定性特征显著改善,固定化的MnP比游离MnP状态对不同温度具有更高的耐受性。72小时后,在55°C和60°C下,不溶性MnP分别保留其活性至41.2±1.7%和33.6±1.4%,在孵育48小时后,在65°C和70°C下分别保留34.3±1.9%和22.0±1.1%的活性。连续十个循环记录了相当可观的可重复使用性。此外,为了探索工业适用性,对琼脂糖固定化的MnP进行了纺织工业废水生物修复目的的测试。连续六个循环后,测试废水被不同程度地脱色(最大脱色率为98.4%)。总之,琼脂糖固定化的MnP具有显著的生物修复潜力以及催化、热稳定性、可重复使用性和储存稳定性特征,反映了其作为生物修复和其他工业应用生物催化剂的前景。
