一种新型融合蛋白(RGD)3/tTF的基因表达与活性分析

为了发展一种新型的融合蛋白(RGD)3/tTF用于肿瘤血管的选择性栓塞治疗,利用PCR技术重组(RGD)3/tTF融合基因,克隆于pET22b( )载体,表达于E.coliBL21(DE3)。用镍柱纯化融合蛋白。凝血实验与FⅩ活化实验检测融合蛋白tTF组分的活性。间接ELISA分析(RGD)3/tTF与αvβ3的特异结合能力。pET22b( )/(RGD)3/tTF重组质粒成功获得并表达于E.coliBL21(DE3)。纯化蛋白(RGD)3/tTF能有效诱发血液凝固,活化FⅩ。(RGD)3/tTF与αvβ3的特异结合能力比RGD/tTF提高了32%。新型融合蛋白(RGD)3/tTF已在E.coli系统成功表达,表达蛋白保持tTF的活性并显示比RGD/tTF更高的与αvβ3的结合能力。     

凝血靶向通用效应因子tTF/SA融合蛋白的表达及活性鉴定

制备凝血靶向通用效应因子tTF/SA融合蛋白,并鉴定其生物学活性。利用PCR技术构建tTF与链霉亲和素SA的融合基因,克隆至表达载体pET22b( ),在E.coliBL21(DE_3)中表达,镍亲和层析柱纯化tTF/SA融合蛋白。凝血实验和FⅩ活化实验鉴定融合蛋白中tTF的活性,ELISA鉴定融合蛋白中SA与生物素Biotin结合的活性。获得序列正确的tTF/SA/pET22b( )重组子,融合基因在E.coliBL21(DE_3)中高效表达。纯化后的融合蛋白具有活化FⅩ、引起血液凝固的能力,且能与生物素结合。融合基因已成功在E.coliBL21(DE_3)中表达,tTF/SA融合蛋白具有TF和SA活性。融合蛋白tTF/SA可作为通用效应因子,与生物素化的肿瘤组织血管特异性载体联用,实现选择性诱发肿瘤组织血管栓塞的多点治疗。     

Expression of mature pokeweed antiviral protein with or without C-terminal extrapeptide in Escherichia coli as a fusion with maltose-binding protein.

Genomic clones encoding the mature pokeweed antiviral protein with or without C-terminal extrapeptide (PAPMC and PAPM), which have been reported to be highly toxic to E. coli cells, were inserted into the expression vector pMAL-p2. The recombinant PAPs (rPAPMC and rPAPM) were successfully expressed in E. coli at 25 degrees C, being exported to the periplasm as soluble fusions with maltose-binding protein (MBP). The rPAPs were cleaved from MBP by treatment with factor Xa and subsequently purified with final yields of 4.0 mg/liter (rPAPMC) and 5.5 mg/liter (rPAPM). rPAPM was resistant to protease digestion, but the C-terminal extrapeptide appeared to be susceptible and was partially digested by some protease in E. coli. Both rPAPMC and rPAPM were as active as the native PAPM from pokeweed leaves in depurinating rat liver and E. coli ribosomes, while the activities of rPAPMC on both ribosomes were decreased at least 60-fold by fusion with MBP.     

重组人BMP6在大肠杆菌中可溶表达、纯化及活性分析

BMP6是一种调节成骨细胞和成软骨细胞分化的骨诱导因子, 在修复各种骨缺损方面具有很好的应用潜力。有诱骨活性的BMP6是多二硫键的二聚体蛋白, 疏水性极强容易聚集沉淀。为了在大肠杆菌中可溶表达具有生物活性的重组人BMP6(rhBMP6), 构建了具有TRX、GST、MBP、CBD融合标签和His6标签的 rhBMP6成熟肽原核表达载体, 调节诱导温度和IPTG浓度, 比较不同融合标签和诱导条件对目的蛋白表达量和溶解性的影响。结果表明, MBP最能有效的增强rhBMP6的溶解性, 诱导条件对溶解性影响较小。大肠杆菌BL21 trxB(DE3)这种硫氧还蛋白还原酶缺陷菌株为rhBMP6二硫键在胞质中形成提供了合适的氧化还原环境。MBP和BL21 trxB(DE3)相结合在细胞质中高效可溶表达出了BMP6融合蛋白二聚体。表达产物经亲和层析和凝胶排阻层析纯化后, 能诱导成肌细胞系C2C12向成骨细胞方向 转化。     

重组人BMP6在大肠杆菌中可溶表达、纯化及活性分析

BMP6是一种调节成骨细胞和成软骨细胞分化的骨诱导因子,在修复各种骨缺损方面具有很好的应用潜力.有诱骨活性的BMP6是多二硫键的二聚体蛋白,疏水性极强容易聚集沉淀.为了在大肠杆菌中可溶表达具有生物活性的重组人BMP6(rhBMP6),构建了具有TRX、GST、MBP、CBD融合标签和His6标签的rhBMP6成熟肽原核表达载体,调节诱导温度和IPTG浓度,比较不同融合标签和诱导条件对目的蛋白表达量和溶解性的影响.结果表明,MBP最能有效的增强rhBMP6的溶解性,诱导条件对溶解性影响较小.大肠杆菌BL21 trxB(DE3)这种硫氧还蛋白还原酶缺陷菌株为rhBMP6二硫键在胞质中形成提供了合适的氧化还原环境.MBP和BL21 trxB(DE3)相结合在细胞质中高效可溶表达出了BMP6融合蛋白二聚体.表达产物经亲和层析和凝胶排阻层析纯化后,能诱导成肌细胞系C2C12向成骨细胞方向转化.     

An Escherichia coli vector to express and purify foreign proteins by fusion to and separation from maltose-binding protein

A plasmid vector has been constructed that directs the synthesis of high levels (approximately 2% of total cellular protein) of fusions between a target protein and maltose-binding protein (MBP) in Escherichia coli. The MBP domain is used to purify the fusion protein in a one step procedure by affinity chromatography to crosslinked amylose resin. The fusion protein contains the recognition sequence (Ile-Glu-Gly-Arg) for blood coagulation factor Xa protease between the two domains. Cleavage by factor Xa separates the two domains and the target protein domain can then be purified away from the MBP domain by repeating the affinity chromatography step. A prokaryotic (beta-galactosidase) and a eukaryotic (paramyosin) protein have been successfully purified by this method.     

Bacterial expression of an immunologically reactive PCV2 ORF2 fusion protein

The entire coding region of open reading frame 2 (ORF2) of porcine circovirus 2 (PCV2) was linked to the 3'-end of the maltose-binding protein (MBP)-His(8)-tag gene. The fusion protein was expressed as soluble form after induction by isopropylthio-beta-d-galactoside. MBP-His(8)-ORF2 was purified to homogeneity by immobilized metal affinity chromatography based on the interaction of the polyhistidine-tag with metal ions. Expression could represent 1% of the total protein in Escherichia coli, allowing approximately 1 mg of highly purified protein to be obtained per liter of bacterial culture. The fusion protein was recognized in Western blot by anti-PCV2 polyclonal antibody and swine sera with PCV2 infection. In addition, rabbit polyclonal antibody raised against purified MBP-His(8)-ORF2 fusion protein reacted with the ORF2 protein in immunoprecipitation. The availability of this fusion protein should permit a thorough study of prevalence of PCV2 infection in large-scale serological studies of field samples.     

重组牛肠激酶轻链基因在大肠杆菌中的表达与纯化

肠激酶（Enteroloinase,EK,EC3.4.21.9）是一种以异源二聚体形式存在于哺乳动物十二指肠内的丝氨酸蛋白酶,通过在位点（Asp）4-Lys的羧基端进行高效特异酶切,将胰蛋白酶原激活为胰蛋白酶。以GenBank公共数据库中牛肠激酶轻链基因序列（Accession No.NM174439）设计引物,利用RT-PCR方法合成牛肠激酶轻链基因片段,并克隆进pET39b载体中DsbA片段的C’端,转化大肠杆菌BL21（DE3）,获得DsbA/牛肠激酶轻链融合蛋白,经镍离子螯合层析纯化,每升培养液中可得到2.7-3.0mg重组牛肠激酶,对含有肠激酶酶切位点的IL-11/MBP融合蛋白进行酶切,结果表明,酶解率可达到95%以上,为重组牛肠激酶的大规模生产打下了基础。     

Optimized expression, solubilization and purification of nuclear inclusion protein b of cardamom mosaic virus

All RNA viruses encode an RNA-dependent RNA polymerase (RdRP) that is required for replication of the viral genome. Nuclear inclusion b (NIb) gene codes for the RdRp in Potyviridae viruses. In this study, expression, solubilization and purification of NIb protein of Cardamom mosaic virus (CdMV) is reported. The objective of the present study was to express and purify the NIb protein of CdMV on a large scale for structural characterization, as the structure of the RdRp from a plant virus is yet to be determined. However, the expression of NIb protein with hexa-histidine tag in Escherichia coli led to insoluble aggregates. Out of all the approaches [making truncated versions to reduce the size of protein; replacing an amino acid residue likely to be involved in hydrophobic intermolecular interactions with a hydrophilic one; expressing the protein along with chaperones; expression in Origami cells for proper disulphide bond formation, in E. coli as a fusion with maltose-binding protein (MBP) and in Nicotiana tabacum] to obtain the RdRp in a soluble form, only expression in E. coli as a fusion with MBP and its expression in N. tabacum were successful. The NIb expressed in plant or as a fusion with MBP in E. coli can be scaled up for further work.     

组织因子膜外区融合蛋白基因的表达及产物的分离纯化与活性分析

 为构建表达组织因子 (TF)膜外区的融合载体 ,制备组织因子膜外区 ,抽提人胎盘组织的总RNA,通过 RT- PCR法扩增出 TF的 c DNA克隆至 p UC1 8并测定全序列 .然后以此为模板 ,再次PCR扩增出 TF膜外区 (soluble TF,s TF) c DNA,并将其插入到谷胱甘肽巯基转移酶融合表达载体 p GEX4T- 1 ,构建了 tac启动子控制下的 GST- s TF融合蛋白的表达载体 .表达的融合蛋白经亲和层析、凝血酶切得到纯化的 s TF.表达产物经 ELISA验证 ,能特异性地与 TF抗体结合 .重新脂化后 ,该产物具有较大凝血活性 .以上说明采用融合蛋白表达系统可以大量制备组织因子膜外区 ,为研制国产重组凝血活酶试剂和研究 s TF的结构和功能创造条件 .     

Expression and purification of a soluble tissue factor fusion protein with an epitope for an unusual calcium-dependent antibody.

The use of bacterial signal peptides to target recombinant mammalian proteins to the periplasmic space of Escherichia coli (to promote proper disulfide bond formation) has met with variable success. We report the design and use of a bacterial expression vector to direct recombinant fusion proteins to the periplasmic space of E. coli: it contains the signal peptide from the pelB gene of Erwinia carotovora linked to a small peptide epitope for an unusual calcium-dependent antibody (HPC4). HPC4 binds to the epitope in a Ca(2+)-dependent manner, but the epitope itself does not bind Ca2+. We have used this system to express a biologically active, soluble form of tissue factor, the protein responsible for triggering the blood clotting cascade. Soluble tissue factor was secreted into the culture medium at 1-2 mg/liter, from which it could be readily purified using immobilized HPC4 antibody. The HPC4 epitope could be removed by digestion with thrombin or factor Xa, although a free amino terminus was not required for function since soluble tissue factor was equally active with the epitope still in place. This vector/epitope system permits large-scale expression and purification of recombinant soluble tissue factor and should be generally applicable to the isolation of other recombinant proteins. Furthermore, the epitope confers Ca(2+)-dependent binding of the fusion protein to HPC4 antibody while avoiding the creation of a new metal binding site on the fusion protein itself. Tb3+ can bind in this Ca2+ site near Trp, allowing this site to serve as a means of attaching a fluorescent probe to tissue factor.     

The extracellular domain of the human erythropoietin receptor: expression as a fusion protein in Escherichia coli, purification, and biological properties

We developed an efficient production system of the soluble extracellular domain of the human erythropoietin receptor (sEPO-R) and characterized the binding of erythropoietin (EPO) with the purified recombinant protein. The sEPO-R, fused to the maltose binding protein (MBP), was expressed as a soluble protein in the periplasm of Escherichia coli (E. coli) and did not accumulate in inclusion bodies. After lysis of the bacteria by an osmotic shock, the fusion protein was purified by affinity chromatography on amylose followed by size exclusion chromatography (SEC). Specific binding of 125I-labelled EPO to the sEPO-R was demonstrated by competitive and saturation binding assays. A single affinity class (Kd = 0.25 nM) of the binding site was evident by Scatchard analysis. This value is similar to the Kd observed between EPO and the EPO-R of high affinity present on human erythroid progenitors. The complex has a molecular size corresponding to a 1:1 complex of EPO and the fusion protein.     

Escherichia coli maltose-binding protein is uncommonly effective at promoting the solubility of polypeptides to which it is fused.

Although it is usually possible to achieve a favorable yield of a recombinant protein in Escherichia coli, obtaining the protein in a soluble, biologically active form continues to be a major challenge. Sometimes this problem can be overcome by fusing an aggregation-prone polypeptide to a highly soluble partner. To study this phenomenon in greater detail, we compared the ability of three soluble fusion partners--maltose-binding protein (MBP), glutathione S-transferase (GST), and thioredoxin (TRX)--to inhibit the aggregation of six diverse proteins that normally accumulate in an insoluble form. Remarkably, we found that MBP is a far more effective solubilizing agent than the other two fusion partners. Moreover, we demonstrated that in some cases fusion to MBP can promote the proper folding of the attached protein into its biologically active conformation. Thus, MBP seems to be capable of functioning as a general molecular chaperone in the context of a fusion protein. A model is proposed to explain how MBP promotes the solubility and influences the folding of its fusion partners.     

Expression, purification, and antibody binding activity of human papillomavirus 16 L1 protein fused to maltose binding protein

Genetic human papillomavirus type 16 L1 (HPV16 L1) has been widely studied for cervical cancer vaccine development. For the enzyme-linked immunosorbent assay (ELISA) screening of these vaccines, HPV16 L1 protein, which is required as a coating protein, has previously been expressed from costly and laborious recombinant baculovirus-infected insect cells. For a novel HPV16 L1 expression system characterized by a high yield of soluble form with simple purification steps, we have cloned and expressed two different types of HPV16 L1, both fused to maltose binding protein (MBP) or glutathione-S-transferase (GST) in Escherichia coli. The yield of soluble HPV16 L1 was influenced by the cultivation temperature. The yield of soluble form in the total MBP-fused HPV16 L1 protein (MBP-HPV16 L1) was 35% at 37 degrees C, but increased to 85% at 22 degrees C. Among the fusion partners, MBP provided higher yields of total and soluble HPV16 L1 than did GST. MBP-HPV16 L1 showed a 4.9-fold higher yield of the soluble form over insoluble inclusion bodies under optimized culture conditions. The soluble form of MBP-HPV16 L1 was purified via MBP affinity chromatography in a recovery yield of 9.7%. After fusion with MBP, HPV16 L1 showed binding activity to HPV16 L1-specific monoclonal antibody comparable to HPV16 L1 from the insect cells in ELISA tests. These results demonstrate that the use of MBP as a fusion partner may generate a high yield of soluble HPV16 L1 under optimized temperature conditions, and that MBP-fused HPV16 L1 might be applied further in evaluations of the immune responses of HPV16 L1-based cervical cancer vaccines.     

大鼠热休克蛋白70的融合表达及纯化鉴定

目的：在大肠杆菌中高效表达并纯化大鼠热休克蛋白（HSP）70与麦芽糖结合蛋白（MBP）的融合蛋白,以进一步研究细胞外HSfr70的生物学功能。方法：用RT-PCR方法扩增目的基因,并将其克隆到原核表达载体pMAL-c2X中,酶切鉴定并进行DNA测序;将该重组表达载体转化大肠杆菌B121,用IPTG在不同温度及时间下进行诱导表达,建立最佳诱导表达条件;采用Amylose树脂预装柱对目的蛋白进行亲和纯化,并对不同表达条件下的产物进行SDS-PAGE及Westernblot分析。结果：克隆出目的基因,构建了融合表达载体pMAL-c2X／hsp70;诱导表达后经SDS-PAGE检测表明获得了目的条带,并纯化出纯度较高的融合蛋白;免疫印迹鉴定表明其具有抗原活性。结论：在大肠杆菌中高效表达并纯化了融合蛋白MBP-HSP70,为进一步研究细胞外HSP70的生物学效应提供了有用的材料。     

Development of a method for expression and purification of the regulatory C2-like domain of human 5-lipoxygenase

5-Lipoxygenase (5-LO), the key enzyme in leukotriene biosynthesis, is built of a catalytic C-terminal domain and a regulatory N-terminal C2-like domain. The C2-like domain is the target of many regulatory factors or proteins including Ca(2+), phospholipids, glycerides, coactosin-like protein and presumably other components that modulate the catalytic activity of 5-LO by acting at this domain, but the detailed underlying molecular mechanisms of these interactions are still unclear. In order to obtain the 5-LO C2-like domain as purified protein in good yields for further mechanistic studies and structure elucidation, a novel expression and purification approach has been applied. A plasmid was constructed expressing a fusion protein of maltose-binding protein (MBP) and the regulatory C2-like domain of 5-LO (AS 1-128), separated by a tobacco etch virus (TEV) protease-cleavage site. The fusion protein MBP-5LO1-128 could be essentially expressed as a soluble protein in Escherichia coli and was efficiently purified by amylose affinity chromatography. By means of this procedure, approximately 80mg purified fusion protein out of 1L E. coli culture were obtained. Digestion with TEV protease yielded the C2-like domain that was further purified using hydrophobic interaction chromatography. Alternatively, the uncleaved fusion protein MBP-5LO1-128 may be suitable to immobilize the C2-like domain on an amylose resin for co-factor interaction studies. Together, we present a convenient expression and purification strategy of the 5-LO C2-like domain that opens many possibilities for structural determination and mechanistic studies, aiming to reveal the precise role and function of this regulatory domain.     

抗MRP3单链抗体-sTRAIL融合蛋白诱导U251多形性胶质母细胞瘤凋亡

采用重组PCR技术获得抗多药耐药相关蛋白3(multidrug resistance protein 3, MRP3)的单链抗体(scFv)与人源可溶性肿瘤坏死因子相关凋亡诱导配体(soluble TNF-related apoptosis inducing ligand, sTRAIL)的融合蛋白质的基因编码序列, 利用原核表达载体pMAL-c2,构建含麦芽糖结合蛋白(maltose binding protein, MBP)标签肽的antiMRP3(scFv)-sTRAIL融合蛋白, 经亲和层析柱纯化. 获得纯化的antiMRP3(scFv)-sTRAIL融合蛋白,用MRP3阳性U251多形性胶质母细胞瘤做增殖抑制实验、细胞凋亡诱导实验,结果均显示具有明显的活性, 而MBP无明显作用. 上述结果表明,成功表达了antiMRP3(scFv)-sTRAIL融合蛋白, 该融合蛋白具有诱导U251多形性胶质母细胞瘤细胞凋亡的活性, 为开发靶向性抗肿瘤药物奠定了基础.     

Overproduction and purification of Lon protease fromEscherichia coli using a maltose-binding protein fusion system

Lon protease, which plays a major role in degradation of abnormal proteins inEscherichia coli, was overproduced and efficiently purified using the maltose-binding protein (MBP) fusion vector. The MBP-Lon fusion protein was expressed in a soluble form inE. coli and purified to homogeneity by amylose resin in a single step. Lon protease was split from MBP by cleaving a fusion point between MBP and Lon with factor Xa and purified by amylose resin and subsequent gel filtration. In this simple method, Lon protease was purified to homogeneity. Purified MBP-Lon fusion protein and Lon protease showed similar breakdown activities with a peptide (succinyl-l-phenylalanyl-l-leucyl-phenylalanyl--d-methoxynaphthylamide) and protein (-casein) in the presence of ATP. Therefore, the gene-fusion approach described in this study is useful for the production of functional Lon protease. MBP-Lon fusion protein, which both binds to the amylose resin and has ATP-dependent protease activity, should be especially valuable for its application in the degradation of abnormal proteins by immobilized enzymes.     

重组SARS冠状病毒M蛋白的表达、纯化及鉴定

SARS冠状病毒是人的严重急性呼吸综合征的病原体。根据对其他种类冠状病毒的研究结果 ,膜蛋白 (M蛋白 )是病毒主要的结构蛋白 ,重组M蛋白可被用来作为抗原检测对应冠状病毒的感染和制备疫苗。SARS病毒M蛋白基因克隆到原核表达载体pMAL cRI中 ,利用N端和C端分别融合麦芽糖结合蛋白 (maltosebindingprotein和MxeGyrAinteinCBD的策略 ,在大肠杆菌中初步表达了重组M蛋白 ,并通过Western印迹和质谱对蛋白质进行了鉴定。重组蛋白质经亲和层析得到了部分纯化 ,纯化后的蛋白质将用于功能研究与诊断试剂盒的研制。