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中国精品科技期刊2020
朱海,郑梦泽,贾玮玮,等. 限制性内切酶Bsa I的分离纯化与结晶及其硒代衍生物的制备[J]. 食品工业科技,2023,44(22):110−116. doi: 10.13386/j.issn1002-0306.2022110215.
引用本文: 朱海,郑梦泽,贾玮玮,等. 限制性内切酶Bsa I的分离纯化与结晶及其硒代衍生物的制备[J]. 食品工业科技,2023,44(22):110−116. doi: 10.13386/j.issn1002-0306.2022110215.
ZHU Hai, ZHENG Mengze, JIA Weiwei, et al. Isolation, Purification and Crystallization of Restriction Enzyme Bsa I and Its Preparation of Seleno-derived Derivatives[J]. Science and Technology of Food Industry, 2023, 44(22): 110−116. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022110215.
Citation: ZHU Hai, ZHENG Mengze, JIA Weiwei, et al. Isolation, Purification and Crystallization of Restriction Enzyme Bsa I and Its Preparation of Seleno-derived Derivatives[J]. Science and Technology of Food Industry, 2023, 44(22): 110−116. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022110215.

限制性内切酶Bsa I的分离纯化与结晶及其硒代衍生物的制备

Isolation, Purification and Crystallization of Restriction Enzyme Bsa I and Its Preparation of Seleno-derived Derivatives

  • 摘要: 目的:筛选并优化限制性内切酶Bsa I的三维结构样品制备的方法。方法:本课题采用大肠杆菌表达系统表达Bsa I蛋白及其硒代衍生物。首先构建重组表达载体pBAD-Bsa I,转化到大肠杆菌( E. coli )ER2566中进行表达,并采用亲和层析和阴离子交换层析进行纯化。然后利用质谱、圆二色谱的方法测试硒代蛋白衍生情况,并对其进行酶活测定。最后采用坐滴法进行初步的晶体生长研究。结果:通过两步纯化方法获得了纯度大于90%的重组Bsa I和Se-Bsa I硒代蛋白;经质谱检测发现重组Se-Bsa I蛋白中的11个甲硫氨酸全部硒代,圆二色谱检测和酶活测试确定了硒代对Bsa I蛋白的结构和活性无明显影响。结晶实验显示重组Bsa I 蛋白不仅可以在0.2 mol/L酸镁四水合物、pH6.5的0.1 mol/L二甲胂酸钠三水合物、20%聚乙二醇8000的条件下生长出颗粒状结晶,而且可以在pH4.6的0.1 mol/L三水醋酸钠、2 mol/L硫酸铵的条件下生长出球状结构晶体。结论:本研究成功实现了BsaI蛋白及其硒代蛋白的重组表达,并对蛋白晶体条件进行初筛,旨为解析BsaI蛋白三维结构提供一定的参考。

     

    Abstract: Objective: To screen and optimize the method for preparing three-dimensional structural samples of restriction endonuclease Bsa I. Methods: In this study, the Escherichia coli expression system was employed to express the Bsa I protein and its selenomethionine derivative. Firstly, a recombinant expression vector pBAD-Bsa I was constructed and transformed into Escherichia coli (E.coli) ER2566 for expression. Purification was carried out using affinity chromatography and anion exchange chromatography. Subsequently, selenomethionine derivation situation was assessed using mass spectrometry and circular dichroism spectroscopy, followed by enzyme activity determination. Lastly, preliminary crystal growth studies were conducted using the sitting-drop method. Results: Through a two-step purification approach, recombinant Bsa I and Se-Bsa I selenomethionine derivative with a purity exceeding 90% were obtained. Mass spectrometry analysis revealed that all 11 methionine residues in the recombinant Se-Bsa I protein were selenomethionine-incorporated. Circular dichroism spectroscopy and enzyme activity testing confirmed that the selenomethionine incorporation had no significant impact on the structure and activity of Bsa I protein. Crystallization experiments demonstrated that the recombinant Bsa I protein could not only form granular crystals under conditions of 0.2 mol/L magnesium acetate tetrahydrate at pH6.5, 0.1 mol/L sodium cacodylate trihydrate with 20% polyethylene glycol 8000, but also form spherical structures under conditions of 0.1 mol/L sodium acetate trihydrate at pH4.6 and 2 mol/L ammonium sulfate. Conclusion: This study successfully achieved the recombinant expression of Bsa I and Se-Bsa I selenomethionine derivative, conducted preliminary screening of protein crystal conditions, aiming to provide valuable insights for deciphering the three-dimensional structure of Bsa I protein.

     

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