中文摘要：

为制备可视化的转移消失蛋白（MIM）的I-BAR结构域重组体,克隆了顺联绿色荧光蛋白（GFP）探针编码序列的MIM-I-BAR基因.在6xHis标签原核表达质粒上成功构建了DNA序列.同时,实现了未标记荧光探针基因的MIM-I-BAR质粒的构建以作实验对照.成功转染至BL21（DE3）大肠杆菌细胞后,GFP偶联的MIM-I-BAR（MIM-I-BAR-GFP）蛋白表现出很强的可视荧光,该表达产物可方便的通过目测、荧光显微镜、免疫印迹和紫外可见分光光度计等多种手段进行检测.此外,在考察不同条件下的蛋白表达效率过程中发现,带有GFP探针的MIM-I-BAR重组蛋白在温度为10℃时产率最高,而并非37℃.这一特征与非荧光标记的MIM-I-BAR明显不同.研究证实该最佳表达温度条件适用于重组蛋白产品中量制备.所开发的带有荧光探针的MIM-I-BAR蛋白产品及其制备工艺在科学研究、生物医学应用以及药物开发过程中均有较高的应用价值。

英文摘要：

To achieve a visible inverse Bin-amphiphysin-Rvs （I-BAR）domain recombinant of missing in metastasis （MIM） protein,the green fluorescent protein （GFP）encoding gene was cloned at the terminal of MIM-I-BAR as a probe.The DNA was successfully constructed on a 6xHis-tagged prokaryotic expression plasmid.The non-GFP labeled MIM-I-BAR encoding plasmid was also constructed as a control. Being successfully transformed into BL21 （DE3 ）cells,the GFP-conjugated MIM-I-BAR （MIM-I-BAR-GFP ） exhibits strong visible fluorescence,and the expression product can be easily detected by visual inspection, a fluorescence microscope, Western blot or ultraviolet and visible spectrophotometer. Moreover, examination of expression efficiency under various culture conditions revealed that the MIM-I-BAR-GFP gene has a high protein yield at 10 ℃,but not at the culture temperature of 37 ℃.This property is much different from that of the non-fluorescent MIM-I-BAR gene. This optimal expression condition is also proved to be feasible for protein production in midi-scale. The fluorescent recombinant MIM-I-BAR-GFP protein can serve as a useful tool in scientific research, biomedical application and pharmaceutical development.