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通过定点突变引入二硫键提高长链嗜盐单胞菌偶氮还原酶的热稳定性。

Improving the thermal stability of azoreductase from Halomonas elongata by introducing a disulfide bond via site-directed mutagenesis.

作者信息

Nakhaee Narjes, Asad Sedigheh, Khajeh Khosro, Arab Seyed Shahriar, Amoozegar Mohammad Ali

机构信息

Department of Biotechnology, College of Science, University of Tehran, Tehran, Iran.

Department of Biochemistry, Faculty of Biological Sciences, Tarbiat Modares University, Tehran, Iran.

出版信息

Biotechnol Appl Biochem. 2018 Nov;65(6):883-891. doi: 10.1002/bab.1688. Epub 2018 Aug 31.

Abstract

Azoreductases mainly reduce azo dyes, the largest class of colorants, to colorless aromatic amines. AzoH, a new azoreductase from the halophilic bacterium, Halomonas elongata, has been recently cloned and expressed in Escherichia coli. The aim of this study was to improve thermal stability of this enzyme by introducing new disulfide bonds. Since X-ray crystallography was not available, homology modeling and molecular dynamics was used to construct the enzyme three-dimensional structure. Potential disulfide bonds for increasing thermal stability were found using DIScover online software. Appropriate mutations (L49C/D108C) to form a disulfide bond were introduced by the Quik-Change method. Mutant protein expressed in E. coli showed increased thermal stability at 50 °C (increased half-life from 12.6 Min in AzoH to 26.66 Min in a mutated enzyme). The mutated enzyme could also tolerate 5% (w/v) NaCl and retained 30% of original activity after 24 H incubation, whereas the wild-type enzyme was completely inactivated. According to circular dichroism studies, the secondary structure was not altered by this mutation; however, a blue shift in intrinsic florescent graph revealed changes in the tertiary structure. This is the first study to improve thermal stability and salt tolerance of a halophilic azoreductase.

摘要

偶氮还原酶主要将最大一类的着色剂偶氮染料还原为无色芳香胺。AzoH是一种来自嗜盐细菌嗜盐栖热菌的新型偶氮还原酶,最近已在大肠杆菌中克隆并表达。本研究的目的是通过引入新的二硫键来提高该酶的热稳定性。由于无法获得X射线晶体学数据,因此使用同源建模和分子动力学来构建该酶的三维结构。使用在线软件DIScover找到用于提高热稳定性的潜在二硫键。通过定点突变方法引入适当的突变(L49C/D108C)以形成二硫键。在大肠杆菌中表达的突变蛋白在50°C时显示出热稳定性增加(半衰期从AzoH中的12.6分钟增加到突变酶中的26.66分钟)。突变酶还能耐受5%(w/v)的NaCl,在孵育24小时后保留30%的原始活性,而野生型酶则完全失活。根据圆二色性研究,这种突变不会改变二级结构;然而,内源荧光图谱中的蓝移揭示了三级结构的变化。这是第一项提高嗜盐偶氮还原酶热稳定性和耐盐性的研究。

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