Zhang Ming-juan, Yang Jun, Zhu Can-zhan, Duan Zong-ming, Niu Xiao-lin, Wang Rong, Song Ya-fan
Department of Cardiology, Second Affiliated Hospital, Medical School of Xi'an Jiaotong University, Xi'an 710004, China.
Sichuan Da Xue Xue Bao Yi Xue Ban. 2009 Mar;40(2):203-7.
To construct prokaryotic expression system for expressing, purifying and identifying truncated fragment of extra-cellular segment of sodium pump alpha3 subunit with pGEX-6P-1 GST gene fusion system in Escherichia coli by in-fusion technology.
According to the conservative sequence of M1-M2 and M3-M4 extra-cellular gene fragments of sodium pump a3 subunit, which published in GenBank, a serial of primers and gene fragments was designed, and directly synthesized to fuse the above two gene fragments. The fusion gene was fused with gene-specific primers by PCR, and then fusion gene fragment was fused into the single stranded homology regions of vector pGEX-6P-1 by in-fusion cloning to construct recombinant vector pGEX-Trf-alpha3 (Truncated fragment of extracellular segment of sodium pump alpha3 subunit, Trf-alpha3). After DH10bac was transferred with it, the pGEX-Trf-alpha3 plasmid was purified and identified by PCR and sequenced. Then the recombinant plasmid pGEX-Trf-alpha3 was expressed in E. coli BL21 cells, inducted by IPTG. GST-Trf-alpha3 fusion protein was purified with Glutathione Sepharose 4B purifying system and analyzed by SDS-PAGE.
The results of PCR and sequencing demonstrated that the M1-M2 and M3-M4 extra-cellular gene was inserted in plasmid pGEX-6P-1 vector successfully. And the sequence was correct. Protein sequence analysis showed that the GST-Trf-alpha3 fusion protein was consisted of 262 amino-acid residues. Relative molecular mass in theory was 33.22 X 10(3). The amount of recombinant protein was 10% of the total bacteria protein. The soluble fusion protein was about 80.8%. After affinity purification, the purity of GST-Trf-alpha3 fusion protein was over 95%. There was some extent binding activity between GST-Trf-alpha3 fusion protein and ouabain, but the activity was very low.
Prokaryotic expression system for expressing truncated fragment of extra-cellular segment of sodium pump alpha3 subunit with pGEX-6P-1 GST gene fusion system in Escherichia coli by in-fusion technology had been constructed. The purified method had also established. High purified GST-Trf-alpha3 fusion protein was obtained. These have found the foundation of further study on its biological function and potential pharmacology function.
构建原核表达系统,利用融合技术在大肠杆菌中通过pGEX-6P-1 GST基因融合系统表达、纯化及鉴定钠泵α3亚基细胞外段截短片段。
根据GenBank公布的钠泵α3亚基M1-M2和M3-M4细胞外基因片段保守序列,设计一系列引物和基因片段,直接合成并融合上述两个基因片段。通过PCR将融合基因与基因特异性引物融合,然后利用融合克隆将融合基因片段融合到载体pGEX-6P-1的单链同源区域,构建重组载体pGEX-Trf-α3(钠泵α3亚基细胞外段截短片段,Trf-α3)。将其转入DH10bac后,纯化pGEX-Trf-α3质粒,通过PCR鉴定并测序。然后将重组质粒pGEX-Trf-α3在大肠杆菌BL21细胞中表达,用IPTG诱导。用谷胱甘肽琼脂糖4B纯化系统纯化GST-Trf-α3融合蛋白,并进行SDS-PAGE分析。
PCR和测序结果表明,M1-M2和M3-M4细胞外基因成功插入质粒pGEX-6P-1载体,且序列正确。蛋白质序列分析表明,GST-Trf-α3融合蛋白由262个氨基酸残基组成,理论相对分子质量为33.22×10³。重组蛋白量占细菌总蛋白的10%,可溶性融合蛋白约占80.8%。亲和纯化后,GST-Trf-α3融合蛋白纯度超过95%。GST-Trf-α3融合蛋白与哇巴因之间存在一定程度的结合活性,但活性很低。
构建了利用融合技术在大肠杆菌中通过pGEX-6P-1 GST基因融合系统表达钠泵α3亚基细胞外段截短片段的原核表达系统,建立了纯化方法,获得了高纯度的GST-Trf-α3融合蛋白,为进一步研究其生物学功能和潜在药理功能奠定了基础。
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