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将cnr操纵子克隆到芽孢杆菌科细菌菌株中以开发合适的生物吸附剂。

Cloning of the cnr operon into a strain of Bacillaceae bacterium for the development of a suitable biosorbent.

作者信息

Fosso-Kankeu Elvis, Mulaba-Bafubiandi Antoine F, Piater Lizelle A, Tlou Matsobane G

机构信息

School of Chemical and Minerals Engineering, Faculty of Engineering, North-West University, Potchefstroom, South Africa.

Minerals Processing and Technology Research Center, Department of Extraction Metallurgy, School of Mining, Metallurgy and Chemical Engineering, Faculty of Engineering and the Built Environment, University of Johannesburg, PO Box 17011, Doornfontein, 2028, South Africa.

出版信息

World J Microbiol Biotechnol. 2016 Jul;32(7):114. doi: 10.1007/s11274-016-2069-5. Epub 2016 Jun 4.

Abstract

In this study, a potential microbial biosorbent was engineered to improve its capacity to remediate heavy metal contaminated water resources. A Bacillaceae bacterium isolated from a mining area was transformed with a plasmid carrying the (pECD312)-based cnr operon that encodes nickel and cobalt resistance. The bioadsorption ability of the transformed strain was evaluated for removal of nickel from metallurgical water relative to the wildtype strain. Results showed that transformation improved the adsorption capacity of the bacterium by 37 % at nickel concentrations equivalent to 150 mg/L. Furthermore it was possible to apply prediction modelling to study the bioadsorption behaviour of the transformed strain. As such, this work may be extended to the design of a nickel bioremediation plant utilising the newly developed Bacillaceae bacterium as a biosorbent.

摘要

在本研究中,构建了一种潜在的微生物生物吸附剂,以提高其修复重金属污染水资源的能力。从矿区分离出的一株芽孢杆菌科细菌用携带基于(pECD312)的cnr操纵子的质粒进行转化,该操纵子编码镍和钴抗性。相对于野生型菌株,评估了转化菌株从冶金水中去除镍的生物吸附能力。结果表明,在镍浓度相当于150mg/L时,转化使细菌的吸附能力提高了37%。此外,应用预测模型来研究转化菌株的生物吸附行为是可行的。因此,这项工作可扩展到利用新开发的芽孢杆菌科细菌作为生物吸附剂设计镍生物修复装置。

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