Cloning, expression, and refolding of a secretory protein ESAT-6 of Mycobacterium tuberculosis

A DNA encoding the 6-kDa early secretory antigenic target (ESAT-6) of Mycobacterium tuberculosis was inserted into a bacterial expression vector of pQE30 resulting in a 6x His-esat-6 fusion gene construction. This plasmid was transformed into Escherichia coli strain M15 and effectively expressed. The expressed fusion protein was found almost entirely in the insoluble form (inclusion bodies) in cell lysate. The inclusion bodies were solubilized with 8M urea or 6M guanidine-hydrochloride at pH 7.4, and the recombinant protein was purified by Ni-NTA column. The purified fusion protein was refolded by dialysis with a gradient of decreasing concentration of urea or guanidine hydrochloride or by the size exclusion protein refolding system. The yield of refolded protein obtained from urea dialysis was 20 times higher than that from guanidine-hydrochloride. Sixty-six percent of recombinant ESAT-6 was successfully refolded as monomer protein by urea gradient dialysis, while 69% of recombinant ESAT-6 was successfully refolded as monomer protein by using Sephadex G-200 size exclusion column. These results indicate that urea is more suitable than guanidine-hydrochloride in extracting and refolding the protein. Between the urea gradient dialysis and the size exclusion protein refolding system, the yield of the monomer protein was almost the same, but the size exclusion protein refolding system needs less time and reagents.     

Cloning and purification of functionally active Fas ligand interfering protein (FIP) expressed in Escherichia coli

This report presents purification and characterization of the extracellular domain of rat Fas protein, called FIP (FasL interfering protein), expressed as inclusion bodies in Escherichia coli. FIP was extracted from the inclusion bodies, solubilized with 8 M urea, purified by a single-step immobilized metal ion (Ni(2+)) affinity chromatography and refolded. SDS/PAGE and mass spectrometry analysis of the purified protein verified its purity. Fluorescence spectrum analysis showed that the refolding procedure caused structural changes which presumably might have led to oligomerization. The purified FIP has biological activities: it binds specifically soluble Fas ligand and protects human Jurkat lymphocytes against FasL-dependent apoptosis. This efficient procedure of FIP expression in E. coli and renaturation may be useful for production of therapeutically important proteins.     

Cloning,overexpression, purification,and matrix-assisted refolding of DevS (Rv 3132c) histidine protein kinase of Mycobacterium tuberculosis

The devR-devS (Rv 3133c-Rv 3132c) two-component system of Mycobacterium tuberculosis was identified in our laboratory by RNA subtractive hybridization. This genetic system was predicted to encode a response regulator and histidine protein kinase, respectively. The putative histidine kinase protein DevS was overexpressed to high levels in Escherichia coli as a fusion protein with a hexahistidine tag, His(6)-DevS201, in the form of inclusion bodies. Here we report a "redox-based" method of matrix-bound renaturation of DevS protein. The refolded protein was biochemically active in an autophosphorylation reaction characteristic of histidine kinases and was suitable for the generation of polyclonal antibodies and as an antigen in ELISA.     

Recombinant Human Ribosomal Protein S16: Expression,Purification, Refolding,and Structural Stability

The cDNA of human ribosomal protein S16 was cloned into the expression vector pET-15b. Large-scale production of the recombinant protein was carried out in E. coli cells and highly purified protein was isolated. A method for refolding the protein from inclusion bodies was optimized. The secondary structure content of the refolded protein was analyzed by CD spectroscopy. It was found that 21 +/- 4% of the amino acid sequence of the protein forms alpha-helices and 24 +/- 3% is in beta-strands. The protein structure stability was studied at various pH values and urea concentrations. The protein is quickly denatured at pH above 8.0, whereas increasing of urea concentration causes slow unfolding of the protein.     

Purification and refolding of a novel cancer/testis antigen BJ-HCC-2 expressed in the inclusion bodies of Escherichia coli

BJ-HCC-2 is one of the cancer/testis antigens that may be the most promising targets for tumor immunotherapy. To investigate the expression of BJ-HCC-2 protein in tumor cells and its capacity to elicit CTL response, the recombinant protein of BJ-HCC-2 was expressed in the inclusion bodies in Escherichia coli. The inclusion bodies were solubilized effectively with 0.3% N-lauroyl sarcosine in alkaline buffer. Under this denatured form, the BJ-HCC-2 protein carrying 6x histidine tag was purified with Ni-NTA affinity chromatography in a single step with a purity of over 97%. The yield of the purified protein was about 78%. The purified recombinant protein was refolded in a simple way. The correct refolding of the recombinant protein was verified in the recovery of its secondary and tertiary structures as assessed by circular dichroism and fluorescence emission spectra. The recovery rate of refolded protein was 92.1%. The renatured protein displayed its immunoreactivity with the antibodies to BJ-HCC-2 protein by Western blotting. This method of protein purification and refolding is easy to manipulate and may be applicable to the hydrophobic proteins that are unable to be purified by other methods.     

SUA41蛋白表达和纯化及其多克隆抗体制备

旨在制备特异性SUA41多克隆抗体,为深入研究其在植物生长发育中的功能提供有力的分子生物学和生物化学的工具。PCR扩增拟南芥SUA41基因中编码280个氨基酸(401-680位氨基酸)的特异片段,经过GATEWAY的DNA重组技术构建了原核表达载体pDEST17-SUA41,用热休克法转化到E.coliBL21(DE3)star感受态细胞,以异丙基β-D-硫代半乳糖苷(IPTG)诱导表达出6×His-SUA41融合蛋白,用8 mol/L尿素缓冲液溶解包涵体并且经过水逐级去除尿素获得提纯的融合蛋白,并利用Western blotting鉴定确认。融合蛋白经Ni金属螯合柱亲和层析得以纯化,用SDS-PAGE进一步纯化。纯化的融合蛋白经过SDS-PAGE后切胶回收,免疫小白兔,制备多抗血清,然后用Western blotting进行检测,鉴定血清特异性和效价。结果显示,融合蛋白6×His-SUA41免疫兔,产生特异性的SUA41兔抗血清,可以检测到细菌和拟南芥组织中SUA41蛋白。用水提纯变性剂尿素溶解的包涵体蛋白具有可行性。制备的特异性SUA41兔抗血清效价高,能够有效地识别大肠杆菌表达的和拟南芥的SUA41蛋白。在有合适的对照情况下,该兔抗血清可以用于分析植物中SUA41蛋白的功能。     

Purified and refolded recombinant bonnet monkey (Macaca radiata) zona pellucida glycoprotein-B expressed in Escherichia coli binds to spermatozoa

Bonnet monkey (Macaca radiata) zona pellucida glycoprotein-B (bmZPB), excluding the N:-terminal signal sequence and the C:-terminus transmembrane-like domain, has been expressed in Escherichia coli as polyhistidine fusion protein. A requirement of 4 M urea to maintain the purified protein in soluble state rendered it unsuitable for biological studies. Purification of refolded r-bmZPB without urea and devoid of lower molecular weight fragments was achieved by following an alternate methodology that involved purification of inclusion bodies to homogeneity and solubilization in the presence of a low concentration of chaotropic agent (2 M urea) and high pH (pH 12). The solubilized protein was refolded in the presence of oxidized and reduced glutathione. The circular dichroism spectra revealed the presence of both alpha helical and beta sheet components in the secondary structure of the refolded r-bmZPB. The binding of the refolded r-bmZPB to the spermatozoa was evaluated by an indirect immunofluorescence assay and also by direct binding of the biotinylated r-bmZPB. The binding was restricted to the principal segment of the acrosomal cap of capacitated bonnet monkey spermatozoa. In the acrosome-reacted spermatozoa a shift in the binding pattern of r-bmZPB was observed and it bound to the equatorial segment, postacrosomal domain, and midpiece region. Binding of biotinylated r-bmZPB was inhibited by cold r-bmZPB as well as by monoclonal and polyclonal antibodies generated against r-bmZPB. These results suggest that nonglycosylated bmZPB binds to capacitated as well as acrosome-reacted spermatozoa in a nonhuman primate and may have a functional role during fertilization.     

Expression, purification, and in vitro refolding of a humanized single-chain Fv antibody against human CTLA4 (CD152)

A human-derived single-chain Fv (scFv) antibody fragment specific against human CTLA4 (CD152) was produced at high level in Escherichia coli. The scFv gene was cloned from a phagemid to the expression vector pQE30 with a N-terminal 6His tag fused in-frame, and expressed as a 29 kDa protein in E. coli as inclusion bodies. The inclusion body of scFv was isolated from E. coli lysate, solubilized in 8M urea with 10mM dithiothreitol, and purified by ion-exchange chromatography. Method for in vitro refolding of the scFv was established. The effects of refolding buffer composition, protein concentration and temperature on the refolding yield were investigated. The protein was renatured finally by dialyzing against 3mM GSH, 1mM GSSG, 150 mM NaCl, 1M urea, and 50 mM Tris-Cl (pH 8.0) for 48 h at 4 degrees C, and then dialyzed against phosphate-buffered saline (pH 7.4) to remove remaining denaturant. This refolding protocol generated up to a 70% yield of soluble protein. Soluble scFv was characterized for its specific antigen-binding activity by indirect cellular ELISA. The refolded scFv was functionally active and was able to bind specifically to CTLA4 (CD152). The epitopes recognized by refolded anti-CTLA4 scFv do not coincide with those epitopes recognized by CD80/CD86.     

大鼠脑红蛋白(NGB)的原核表达、抗体制备及其细胞分布

脑红蛋白 (NGB)是新发现的与脑内氧供应密切相关的分子 .为了检测细胞内脑红蛋白的表达、亚细胞分布从而对该分子进行深入的功能研究 ,成功地将大鼠脑红蛋白基因编码区构建于原核表达载体pGEX 4T 2 ,转化大肠杆菌BL2 1(DE3) ,获得融合表达产物 .对含有融合蛋白的包含体进行溶解和复性 ,用谷胱甘肽S 转移酶 (GST)亲和层析柱纯化 ,通过免疫家兔获得了兔源性抗NGB多克隆抗体 .采用Western印迹分析技术 ,用该抗体检测NGB基因的真核表达产物 ,证明该抗体有较好的针对NGB蛋白的专一性 ,可用于对NGB的结构和功能研究 .同时 ,用该抗体进行免疫组化分析发现 ,正常成年大鼠神经系统中有较多的NGB免疫反应阳性细胞分布 ,提示NGB是与神经系统功能密切相关的重要分子     

Overexpression, purification and characterization of the catalytic component of Oplophorus luciferase in the deep-sea shrimp, Oplophorus gracilirostris

The luciferase secreted by the deep-sea shrimp Oplophorus consists of 19 and 35kDa proteins. The 19-kDa protein (19kOLase), the catalytic component of luminescence reaction, was expressed in Escherichia coli using the cold-shock inducted expression system. 19kOLase, expressed as inclusion bodies, was solubilized with 6M urea and purified by urea-nickel chelate affinity chromatography. The yield of 19kOLase was 16 mg from 400 ml of cultured cells. 19kOLase in 6M urea could be refolded rapidly by dilution with 50mM Tris-HCl (pH 7.8)-10mM EDTA, and the refolded protein showed luminescence activity. The luminescence properties of refolded 19kOLase were characterized, in comparison with native Oplophorus luciferase. Luminescence intensity with bisdeoxycoelenterazine as a substrate was stimulated in the presence of organic solvents. The 19kOLase is a thermolabile protein and is 98 % inhibited by 1muM Cu2+. The cysteine residue of 19kOLase is not essential for catalysis of the luminescence reaction.     

Purification, refolding, and characterization of recombinant LHRH-T multimer

To make the native LHRH immunogenic, a multimer of LHRH interspersed with T non-B peptides (r-LHRH-d2) was expressed as recombinant protein in Escherichia coli. The expression level of the recombinant protein was around 15% of the total cellular protein and it aggregated as inclusion bodies. Inclusion bodies from the bacterial cells were isolated and purified to homogeneity. Instead of high concentrations of chaotropic agents, r-LHRH- d2 was solubilized in 50 mM citrate buffer at pH 3 containing 2 M urea. The protein was refolded by 5-fold dilution (pulsatile) with cold 10 mM citrate buffer at pH 6 in presence of 0.3 M L-arginine. Purification of r-LHRH-d2 was carried out by successive passages on CM-Sepharose column at pH 6.0 which retained extraneous proteins and pH 4.8 at which r-LHRH-d2 bound to the resin. The elution was carried out by using linear salt gradient (0.1-1 M NaCl). The overall yield of the purified r-LHRH-d2 was 40% of the initial inclusion body proteins. The purity and homogeneity were confirmed by a single homogeneous peak on analytical HPLC eluting out at 29.51 min and by single band on SDS-PAGE reactive with polyvalent anti-LHRH antibodies. Mass spectroscopic analysis indicated the protein to be of 16.6 kDa which equals the theoretically expected mass. The N-terminal amino acid analysis of r-LHRH-d2 showed the sequence which corresponded to the designed protein. The CD spectrum of the refolded r-LHRH-d2 showed that the multimer has considerable beta sheet structure like the monomeric LHRH protein.     

Expression, purification and crystallization of the human UL16-binding protein ULBP1

UL16-binding proteins (ULBPs) are markers of cellular stress which are upregulated on the surface of virus-infected and tumor cells. Recognition of ULBP1 by the activating receptor NKG2D on the surface of cytotoxic natural killer (NK) and T cells promotes lysis of cells expressing ULBP1 and is an important mechanism of immune surveillance. We report a robust method for the generation of large quantities of crystal-grade recombinant ULBP1 protein. The extracellular portion of human ULBP1 was cloned into a T7 expression vector for expression in Escherichia coli. Unpaired cysteines in the sequence which are predicted not to be involved in the intramolecular disulfide bond formation were mutated to serine. ULBP1 was expressed in E. coli BL21 (DE3) pLysS cells as inclusion bodies. Purified inclusion bodies were solubilized by denaturation in guanidine, and refolded by slow dilution. The refolded protein was purified by size exclusion gel filtration and anion exchange chromatography. Furthermore, we have identified conditions optimal for the crystallization of this protein and have obtained initial diffraction data to 4.6? from these crystals.     

Expression, production, and characterization of full-length vitronectin in Escherichia coli

Vitronectin (VN) is one of the primary adhesive proteins in serum and serves to promote the attachment and spreading of a wide variety of cell types to tissue culture plastic. In this study, the pGEX2t expression vector was used to express full-length human VN as a GST-tagged fusion protein in Escherichia coli. GST/VN production was induced with IPTG and the protein was found to localize to inclusion bodies. The inclusion bodies were isolated from cell lysates, washed once with 2 M urea and Triton X-100, and then solubilized with 8 M urea in the presence of a reducing compound. Solubilized GST/VN was purified by heparin affinity chromatography and refolded by dialysis against phosphate buffered saline. Approximately 40 mg of GST/VN was recovered from 1L of bacterial culture. Purified GST/VN migrated at the predicted molecular mass on SDS-PAGE and was recognized by both anti-GST and anti-VN antibodies. GST/VN bound to heparin and promoted cell adhesion, spreading, and growth to a similar extent as that observed with plasma-derived VN. As such, the production of recombinant VN in bacteria represents a rapid and convenient method to produce large quantities of VN for cellular studies.     

Refolding and purification of Zymomonas mobilis levansucrase produced as inclusion bodies in fed-batch culture of recombinant Escherichia coli

Zymomonas mobilis levansucrase was overproduced by the fed-batch culture of recombinant Escherichia coli harboring a novel expression system that is constitutively expressed by the promoter from the Rahnella aquatilis levansucrase gene. Most of the levansucrase was produced as inclusion bodies in the bacterial cytoplasm, accounting for approximately 20% of the total cellular protein. Refolding after complete denaturation by high concentrations of urea or guanidine hydrochloride was not successful, resulting in large amounts of insoluble aggregates. During the development of the refolding method, it was found that direct solubilization of the inclusion bodies with Triton X-100 reactivated the enzyme, with a considerable refolding efficiency. About 65% of inclusion body levansucrase was refolded into active levansucrase in the renaturation buffer containing 4% (v/v) Triton X-100. The in vitro refolded enzyme was purified to 95% purity by single-step DEAE-Sepharose ion exchange chromatography. Triton X-100 was removed by this ion exchange chromatography.     

Expression, refolding, and characterization of a novel recombinant dual human stem cell factor

A novel recombinant dual human stem cell factor (rdhSCF) gene which consisted of a full-length hSCF(1-165aa) cDNA and a truncated hSCF (1-145aa) cDNA, linked by a peptide (GGGGSGGGGSGG) coding region, was constructed and cloned into Escherichia coli expression vector pET-22b. The rdhSCF was expressed at high level in E. coli BL21(DE3) and existed mainly as inclusion bodies. The inclusion bodies were solubilized in urea and refolded by ion-exchange chromatography. After renaturation, the purity of the yielded rdhSCF was up to 90%. Cell proliferation assay showed that the specific activity of the rdhSCF was 2.86x10(5) U/mg, about 1.66 times as high as that of monomer rhSCF expressed in E. coli.     

Optimization of inclusion body solubilization and renaturation of recombinant human growth hormone from Escherichia coli

Recombinant human growth hormone (r-hGH) was expressed in Escherichia coli as inclusion bodies. In 10 h of fed-batch fermentation, 1.6 g/L of r-hGH was produced at a cell concentration of 25 g dry cell weight/L. Inclusion bodies from the cells were isolated and purified to homogeneity. Various buffers with and without reducing agents were used to solubilize r-hGH from the inclusion bodies and the extent of solubility was compared with that of 8 M urea as well as 6 M Gdn-HCl. Hydrophobic interactions as well as ionic interactions were found to be the dominant forces responsible for the formation of r-hGH inclusion bodies during its high-level expression in E. coli. Complete solubilization of r-hGH inclusion bodies was observed in 100 mM Tris buffer at pH 12.5 containing 2 M urea. Solubilization of r-hGH inclusion bodies in the presence of low concentrations of urea helped in retaining the existing native-like secondary structures of r-hGH, thus improving the yield of bioactive protein during refolding. Solubilized r-hGH in Tris buffer containing 2 M urea was found to be less susceptible to aggregation during buffer exchange and thus was refolded by simple dilution. The r-hGH was purified by use of DEAE-Sepharose ion-exchange chromatography and the pure monomeric r-hGH was finally obtained by using size-exclusion chromatography. The overall yield of the purified monomeric r-hGH was approximately 50% of the initial inclusion body proteins and was found to be biologically active in promoting growth of rat Nb2 lymphoma cell lines.     

Human ribosomal protein S13: cloning, expression, refolding, and structural stability

The cDNA of human ribosomal protein S13 was cloned into the expression vector pET-15b. Large-scale production of the recombinant protein was carried out in Escherichia coli cells. Protein accumulated in the form of inclusion bodies was isolated, purified, and refolded by dialysis. The recombinant protein was immunologically reactive, interacting with antiserum against native rpS13. The secondary structure content of the refolded protein was analyzed by means of CD spectroscopy. It was found that 43+/-5% of amino acids sequence of the protein form alpha-helices and 11+/-3% are placed in beta-strands that coincides with theoretical predictions. The beta-strands seem to be located in the extension regions of the rpS13 and do not have homologuous regions in the structure of rpS15 from Thermus thermophilus, which is a prokaryotic homolog of rpS13. The protein structure is stable at a pH range from 4.0 to 8.0 and at low concentrations of urea (up to 3 M).     

尖吻蝮蛇毒酸性磷脂酶A_2I的表达及其生化特征

将尖吻蝮蛇毒酸性磷脂酶 Ａ２ Ｉ（ Ａ．ａ Ａ Ｐ Ｌ Ａ２ Ｉ） 的基因克隆至表达载体ｐ Ｂ Ｌ Ｍ Ｖ Ｌ２ , 在大肠杆菌 Ｒ Ｒ１ 中成功表达。表达产物 Ａ．ａ Ａ Ｐ Ｌ Ａ２ Ｉ约占细菌蛋白质总量的３０ ％ , 以包含体的形式存在。纯化包含体后, 将产物变性、复性, 然后用 Ｆ Ｐ Ｌ Ｃ Ｓｕｐｅｒｏｓｅ Ｔ Ｍ１２ 纯化, 产物经过 Ｓ Ｄ Ｓ Ｐ Ａ Ｇ Ｅ 检测只有单一条带。对表达的 Ａ．ａ Ａ Ｐ Ｌ Ａ２ Ｉ进行了酶活性、抑制血小板聚集活性和溶血活性的测定。结果显示, 表达的 Ａ．ａ Ａ Ｐ Ｌ Ａ２ Ｉ的酶活性同变性后复性江浙蝮蛇酸性磷脂酶 Ａ２（ Ａ Ｐ Ｌ Ａ２） 的酶活性相近, 既具有抑制血小板聚集活性也具有溶血活性。最后对磷脂酶 Ａ２（ Ｐ Ｌ Ａ２） 的结构与这些活性的关系进行了讨论     

Expression, purification, and characterization of recombinant human flotillin-1 in Escherichia coli

Human flotillin-1 (reggie-2), a major hydrophobic protein of biomembrane microdomain lipid rafts, was cloned and expressed in Escherichia coli with four different fusion tags (hexahistidine, glutathione S-transferase, NusA, and thioredoxin) to increase the yield. The best expressed flotillin-1 with thioredoxin tag was solubilized from inclusion bodies, first purified by immobilized metal affinity column under denaturing condition and direct refolded on column by decreasing urea gradient method. The thioredoxin tag was cleaved by thrombin, and the flotillin-1 protein was further purified by anion exchanger and gel filtration column. The purified protein was verified by denaturing gel electrophoresis and Western blot. The typical yield was 3.4 mg with purity above 98% from 1L culture medium. Using pull-down assay, the interaction of both the recombinant flotillin-1 and the native flotillin-1 from human erythrocyte membranes with c-Cbl-associated protein or neuroglobin was confirmed, which demonstrated that the recombinant proteins were functional active. This is the first report describing expression, purification, and characterization of active recombinant raft specific protein in large quantity and highly purity, which would facilitate further research such as X-ray crystallography.