在 Cu2O 纳米粒子存在下，细菌漆酶的热稳定性、pH 稳定性和染料降解活性得到增强。

Thermostability, pH stability and dye degrading activity of a bacterial laccase are enhanced in the presence of Cu2O nanoparticles.

机构信息

Department of Biochemistry, University College of Science, Calcutta University, 35 Ballygunge Circular Road, West Bengal, Kolkata 700 019, India.

出版信息

Bioresour Technol. 2013 Jan;127:25-36. doi: 10.1016/j.biortech.2012.09.087. Epub 2012 Oct 1.

DOI:10.1016/j.biortech.2012.09.087

PMID:23131620

Abstract

The present study relates to a nanotechnology enabled method in which purified laccase from Escherichia coli AKL2 was supplemented with 100 μM copper oxide nanoparticles (Cu(2)O) (NP-laccase). The activity, half life and stability of NP-laccase were enhanced by 4, 42 and 36-fold respectively at high temperature (80 °C) and also over a wide range of pH (4-12) than laccase (in the presence of 0.18 mM CuSO(4)). Thermodynamic analysis of the nanoparticle-induced enzyme stability revealed an enhanced entropy-enthalpy compensation at 80 °C, which reflected the maintenance of its native structure. This was further supported by CD studies. The enhanced activity and thermostability of NP-laccase can be utilized for efficient decolorisation of dyes (both phenolic and azo).

摘要

本研究涉及一种纳米技术方法，其中补充了 100μM 氧化铜纳米粒子（Cu（2）O）（NP-漆酶）的大肠杆菌 AKL2 中的纯化漆酶。NP-漆酶的活性、半衰期和稳定性分别比漆酶（在 0.18mM CuSO（4）存在下）在高温（80°C）和更宽的 pH 范围（4-12）下分别提高了 4、42 和 36 倍。纳米颗粒诱导的酶稳定性的热力学分析表明，在 80°C 时，熵焓补偿得到增强，这反映了其天然结构的维持。这进一步得到了 CD 研究的支持。NP-漆酶的增强的活性和热稳定性可用于有效脱色染料（酚类和偶氮类）。

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在 Cu2O 纳米粒子存在下，细菌漆酶的热稳定性、pH 稳定性和染料降解活性得到增强。

Thermostability, pH stability and dye degrading activity of a bacterial laccase are enhanced in the presence of Cu2O nanoparticles.

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