单纯疱疹病毒1型囊膜糖蛋白gD在大肠杆菌中的表达、纯化及其免疫活性的鉴定

目的:在大肠杆菌中表达1型单纯疱疹病毒(HSV-1)囊膜糖蛋白gD,纯化重组蛋白并对其免疫活性进行鉴定。方法:将HSV-1 gD 基因克隆入原核表达载体pET-28b,利用异丙基-B-D-硫代吡喃半乳糖苷(IPTG)诱导重组质粒转化的大肠杆菌,探讨IPTG浓度、诱导时间、诱导温度对重组蛋白表达的影响;盐酸胍裂解变性包涵体,镍柱亲和层析法纯化gD蛋白,并对纯化后的蛋白进行透析复性;Western blot和ELISA检测gD蛋白的免疫活性。结果:酶切和测序结果表明gD基因克隆入pET-28b载体。该重组质粒转化的大肠杆菌经IPTG诱导后重组蛋白主要以包涵体形式存在,大小约40kDa。gD蛋白诱导表达的最佳条件为0.5mmol/L IPTG于37℃诱导8h。镍柱亲和层析法纯化获得的gD蛋白总量为3.1mg/L,透析复性后获得的gD蛋白总量为1.3mg/L,复性率为41.37%。Western blot及ELISA检测表明表达的gD蛋白具有免疫活性。结论:在大肠杆菌中表达并纯化获得具有免疫活性的HSV-1 gD蛋白,为进一步制备HSV-1诊断试剂和预防疫苗奠定了基础。     

重组人神经生长因子β亚基的原核优势表达及纯化

目的:在原核系统内表达SUMO融合重组人神经生长因子β亚基(h NGF-β),并对其纯化。方法:将5'端引入了羟胺切割位点的h NGF-β基因克隆到表达载体p ET-SUMO中,IPTG诱导表达后,对表达的融合蛋白SUMO-h NGF-β包涵体进行亲和纯化,然后在变性条件下加入羟胺进行裂解,利用SUMO分子伴侣的功能与h NGF-β进行共复性,最后利用阳离子交换层析纯化获得重组h NGF-β。结果:融合蛋白SUMO-h NGF-β相对分子质量为39×103,表达量占细菌总蛋白的35%;在变性条件下经羟胺切割、共复性和阳离子纯化后,相对分子质量为14×103的重组h NGF-β复性率和纯度分别为30%和80%以上,Western印迹显示其具有良好的抗原特性。结论:h NGF-β与SUMO融合可以在原核表达系统中实现优势表达。     

一种从大肠杆菌包涵体中分离纯化GST-TRAF6融合蛋白的方法

利用8 mol/L尿素溶液对表达在大肠杆菌包涵体中的GST-TRAF6融合蛋白进行变性,通过逐级稀释复性的方法对尿素溶解后的GST-TRAF6融合蛋白进行复性,将复性后的GST-TRAF6融合蛋白进一步利用谷胱甘肽琼脂糖树脂亲和层析的方法进行分离纯化,将分离纯化后的蛋白通过Western blot方法进行验证,最后利用体外泛素化反应检测经包涵体变性、复性和纯化后的GST-TRAF6融合蛋白的生物学活性。经过包涵体变性、梯度稀释复性和谷胱甘肽琼脂糖树脂亲和层析3个步骤后纯化得到纯度达90%以上、浓度为396 ng/μL的蛋白质溶液。利用GST蛋白作为对照,经Western blot验证表明,纯化得到的蛋白确为GSTTRAF6融合蛋白。进一步利用体外泛素化反应分析其泛素连接酶活性发现,17 ng/μL浓度的GST-TRAF6融合蛋白能够以泛素分子作为底物在5 min内快速催化自由泛素链的生成。结果表明,表达在大肠杆菌包涵体中的GST-TRAF6融合蛋白经尿素变性溶解后能够成功复性并分离纯化,在溶解性改变的同时恢复了其泛素连接酶活性。为从大肠杆菌包涵体中大规模分离纯化蛋白质提供了一种新的复性方法。     

人白介素-4与大肠杆菌二硫键异构酶DsbC在大肠杆菌中的融合表达及羟胺切割后共复性

目的:通过融合表达、羟胺切割、与二硫键异构酶共复性,获得高表达、高纯度、高生物活性的重组人白细胞介素-4(rhIL-4)。方法:将5端引入了羟胺切割位点的hIL-4基因克隆到大肠杆菌二硫键异构酶DsbC的原核表达载体pET-DsbC中,IPTG诱导表达,对包涵体进行纯化,然后在变性条件下经羟胺切割,利用DsbC的分子伴侣功能与hIL-4进行共复性,最后利用阳离子交换层析纯化获得rhIL-4蛋白。结果:融合蛋白DsbC-hIL-4的表达量占细菌总蛋白的40%以上,以包涵体形式存在;纯化后得到的rhIL-4的相对分子量为15×103,与预期一致,电泳纯度达95%;细胞学实验测定其具有良好的生物学活性。结论:通过融合表达的方法可以提高hIL-4的原核表达量;利用共复性的方式极大地提高了hIL-4的复性率和生物活性。     

中国林蛙核糖核酸酶Rdrlec新基因的原核可溶表达

来源于蛙属的核糖核酸酶由于具有显著的抗肿瘤活性而备受关注,Rdrlec是从中国林蛙基因组中克隆得到的核糖核酸酶新基因。获得大量高纯度野生型重组蛋白是研究其功能的基础。按照大肠杆菌偏好的密码子人工合成Rdrlec基因,通过EcoR I和Hind III位点插入到表达载体pET-32a(+)中构建pET32-Rdrlec重组表达质粒,转化到Escherichia coli BL21(DE3)中,0.4 mmol/L IPTG 30℃诱导6 h后,融合蛋白主要以可溶形式表达,经过Ni-NTA亲和纯化和Sephadex G75层析纯化,得到电泳纯融合蛋白。肠激酶切割后得到Rdrlec野生型重组蛋白,具有降解RNA的酶活性,证明分子的空间结构已经正确形成。Rdrlec野生型重组蛋白表达成功,为后续蛋白结构与功能的研究以及进一步的开发应用提供了原料。     

猪尿酸氧化酶在大肠杆菌中的表达、纯化与部分酶学性质分析

本研究报道了猪尿酸氧化酶(Porcine urate oxidase,pUOX)的原核表达载体的构建、pUOX的蛋白表达条件的优化以及对pUOX经纯化后进行活性检测和酶学性质分析。利用RT-PCR从猪肝总RNA中克隆pUOX,定向插入原核表达载体pET30a(+)中,构建表达载体pET30a(+)/pUOX,并转化到大肠杆菌(Escherichia coli)BL21(DE3)中。重组质粒pET30a(+)/pUOX经双酶切鉴定和序列分析,证实已成功构建了重组表达载体。重组表达菌经IPTG诱导表达了约为41kD的蛋白,与预期分子量一致,并对pUOX蛋白表达条件进行了优化,表达的蛋白主要以包涵体的形式存在于细胞中,包涵体经过变性、复性后,用Ni2+-NTA对复性蛋白进行亲和纯化,并对纯化蛋白进行了活性检测和酶学性质分析,纯化的重组pUOX的比活为50.63IU/mg,并发现重组蛋白在最佳温度、热稳定性等方面与天然pUOX相同,为后续动物实验奠定重要的基础。     

人血管形成素在大肠杆菌中的融合表达、纯化及活性测定

RT-PCR获取的血管形成素Angiogenin cDNA片段,克隆入融合表达载体pRSETB中,表达产物为N端融合了His6的融合蛋白,以包涵体形式存在,占菌体总蛋白的10%。用8mol/L脲溶解包涵体,利用His6与过渡态金属离子Ni⁺²高亲合力结合的性质,经Ni+2NTA亲和树脂一步法纯化,获得纯度达98%以上His6-ANG融合蛋白,Western-blot结果表明在相应分子量处有一条特异性条带。重组蛋白复性后活性测定表明,在体外可促进鸡胚绒毛尿囊膜(CAM)血管形成,并可降解tRNA。     

重组MBP-SUV39H1在大肠杆菌中表达与纯化

[目的]在大肠杆菌中获得具有甲基转移酶活性的重组MBP-SUV39H1蛋白。[方法]通过在大肠杆菌中同时表达异染色质蛋白1(HP1)与重组MBP-SUV39H1蛋白的方法,实现了MBP-SUV39H1的表达,采用his亲和纯化与分子筛Superdex200(SD200)两步分离纯化方案,并利用质谱和ELISA检测MBP-SUV39H1的甲基转移酶活性。[结果]利用大肠杆菌成功表达了MBP-SUV39H1融合蛋白,经纯化后目的条带单一,并具有良好的甲基转移酶活性。[结论]纯化的具有甲基转移酶活性的MBP-SUV39H1可用于抑制剂筛选等后续研究。     

3种纯化重组禽流感病毒NS1抗原方法的比较

目的：摸索出最佳分离纯化和复性重组禽流感病毒NS1抗原的方法,得到高纯度的重组蛋白。方法：将重组质粒pET32a—NS1转染大肠杆菌BL21（DE3）后获得表达,分别以尿素变性、复性,Ni—NTA His．Bind Resin亲和,以及脱氧胆酸钠-N-十二烷基肌氨酸钠（DOC—SKL）洗涤溶解等3种纯化方法从表达产物包涵体中分离纯化NS1蛋白,并进行比较研究。结果：原核表达得到相对分子质量约45000的目的蛋白;3种纯化方法均能分离和纯化出NS1重组蛋白,其中尿素纯化的蛋白纯度为50％～60％,Ni—NTA His．Bind Resin亲和纯化的蛋白纯度为80％-90％,DOC-SKL纯化的蛋白纯度达95％以上;Western blot检测表明,复性后的纯化蛋白具有良好的生物学活性。结论：应用十二烷基肌氨酸钠洗涤纯化是最佳的纯化NS1蛋白的方法,所获得的蛋白可作为包被ELISA的抗原。     

病原诱导的小麦ERF转录因子TaERF1b的原核表达及纯化

为了得到纯化的TaERFlb活性蛋白,将TaERFlb基因含有AP2／ERF结构域的片段插入原核表达载体pGEX-4T-1的多克隆位点中,构建GST-TaERFlb融合蛋白表达载体,并转化到犬肠杆菌BL21（DE3）中。0．1mmol／L1PTG即能诱导融合蛋白表达,37℃诱导4h或30℃诱导8h,融合蛋白均以包涵体的形式表达,16℃诱导12h,融合蛋白不表达。包涵体经溶解及稀释复性后,过GST亲和层析柱,获得纯化的融合蛋白,考马斯亮蓝法测得纯化蛋白的浓度约为0．5ug／ul,凝胶阻滞实验表明包涵体复性成功．所得蛋白具有生物活性：     

Expression,purification and characterization of the interferon-inducible,antiviral and tumour-suppressor protein,human RNase L

The interferon (IFN)-inducible, 2′,5′-oligoadenylate (2-5A)-dependent ribonuclease L (RNase L) plays key role in antiviral defense of mammalian cells. Induction by IFN and activation by double-stranded RNA lead to 2-5A cofactor synthesis, which activates RNase L by causing its dimerization. Active RNase L degrades single-stranded viral as well as cellular RNAs causing apoptosis of virus-infected cells. Earlier, we had reported that expression of recombinant human RNase L caused RNA-degradation and cell-growth inhibition in E. coli without the need for exogenous 2-5A. Expression of human RNase L in E. coli usually leads to problems of leaky expression, low yield and degradation of the recombinant protein, which demands number of chromatographic steps for its subsequent purification thereby, compromising its biochemical activity. Here, we report a convenient protocol for expression of full-length, soluble and biochemically active recombinant human RNase L as GST-RNase L fusion protein from E. coli utilizing a single-step affinity purification with an appreciable yield of the highly purified protein. Recombinant RNase L was characterized by SDS-PAGE, immunoblotting and MALDI-TOF analysis. A semi-quantitative agarose-gel-based ribonuclease assay was developed for measuring its 2-5A-dependent RNase L activity against cellular large rRNAs as substrates. The optimized expression conditions minimized degradation of the protein, making it a convenient method for purification of RNase L, which can be utilized to study effects of various agents on the RNase L activity and its protein–protein interactions.     

Expression, purification, and properties of recombinant encephalomyocarditis virus RNA-dependent RNA polymerase.

Encephalomyocarditis (EMC) virus RNA-dependent RNA polymerase was expressed in Escherichia coli as a fusion protein with glutathione S-transferase (GST), which allowed easy purification of the fusion protein by affinity chromatography on immobilized glutathione. Inclusion of a thrombin cleavage site between the GST carrier and the viral enzyme facilitated the release of purified mature EMC virus RNA polymerase from the GST carrier by proteolysis with thrombin. The purified recombinant enzyme has a molecular mass of about 52 kDa and is recognized by polyclonal immune serum raised against a peptide sequence corresponding to the C-terminal region of the protein. The recombinant enzyme comigrates with immunoprecipitated EMC virus RNA polymerase from infected mouse L929 cell extracts when run in parallel lanes on a sodium dodecyl sulfate-polyacrylamide gel. The enzyme exhibits rifampin-resistant, poly(A)-dependent poly(U) polymerase activity and RNA polymerase activity, which are both oligo(U) dependent. Template-size products are synthesized in in vitro reactions with EMC virus genomic RNA or globin mRNA. The availability of recombinant EMC virus RNA polymerase in a purified form will allow biochemical analysis of its role in the replication of the virus as well as structure-function studies of this unique class of enzyme.     

人血管生成素-PE40融合蛋白基因的构建、表达及活性研究

利用 PCR扩增出人血管生成素 (h ANG)成熟肽的基因片段 .与绿脓杆菌外毒素缺失突变体PE40的基因连接后 ,克隆入 p UC1 9载体中 .测序后克隆入表达载体 p RSETB,构建成 h ANG-PE40融合基因的表达载体 .IPTG诱导 ,表达出分子量约为 58k D的 His6- ANG- PE40融合蛋白 ,占菌体总蛋白的 8% .Ni2 +- NTA树脂纯化表达蛋白 ,SDS- PAGE结果显示纯化重组蛋白为单一条带 .鸡胚绒毛尿囊膜鉴定表明重组蛋白体外能够有效地抑制血管的形成 .     

Expression of the bovine hypothalamic hormone oxytocin precursor in Escherichia coli

The bovine oxytocin precursor was expressed in Escherichia coli as a fusion protein by cloning the hormone encoding cDNA in frame behind the replicase gene of the RNA phage MS2. By step-wise extraction with different urea concentrations, the fusion protein was enriched in the 7 M urea fraction and further purified by Sephacryl S-300 chromatography. The oxytocin precursor was cleaved off the fusion protein by cyanogen bromide treatment, chromatographed on FPLC columns and identified by Western blot analysis, using antibodies raised against neurophysin.     

乙型肝炎病毒靶向核糖核酸酶及其突变体的原核表达和活性分析

目的：研究原核表达的乙型肝炎病毒（HBV）靶向核糖核酸酶（RNase）及其突变体（点突变失去RNase活性）的活性。方法：将构建的靶向核糖核酸酶及其突变体基因克隆入原核表达载体pET32a（＋）,转化大肠杆菌BL21（DE3）,以IPTG诱导融合蛋白（HBV核心蛋白与人嗜酸性粒细胞来源的神经毒素的融合蛋白）的表达;表达产物经包涵体纯化、SDS-PAGE和Western印迹鉴定,将纯化的蛋白用透析方法复性;以酵母tRNA为作用底物,应用复性的蛋白进行RNase活性分析。结果：纯化和复性了HBV靶向核糖核酸酶及其突变体;复性的HBV靶向核糖核酸酶可以降解酵母tRNA且具有剂量依赖性,而复性后的突变的靶向核糖核酸酶体不具有RNase活性。结论：原核表达的HBV靶向核糖核酸酶具有较强的RNase活性,为探索HBV靶向核糖核酸酶抑制乙肝病毒复制的机理奠定了基础。     

Expression and preparation of recombinant hepcidin in Escherichia coli

Hepcidin is a low-molecular-weight, highly disulfide bonded peptide relevant to small intestine iron absorption and body iron homeostasis. In this work, hepcidin was expressed in Escherichia coli as a 10.5 kDa fusion protein (His-hepcidin) with a N-terminal hexahistidine tag. The expressed His-hepcidin existed in the form of inclusion bodies and was purified by IMAC under denaturation condition. Since the fusion partner for hepcidin did not contain other cysteine residues, the formation of disulfide bonds was performed before the His-tag was removed. Then, the oxidized His-hepcidin monomer was separated from protein multimers through gel filtration. Following monomer refolding, hepcidin was cleaved from fusion protein by enterokinase and purified with reverse-phase chromatography. The recombinant hepcidin exhibited obvious antibacterial activity against Bacillus subtilis.     

小鼠骨保护素配基胞外片段的表达、纯化及生物活性分析

骨保护素配基(OPGL)是调节破骨细胞分化和成熟的核心细胞因子。由小鼠骨组织提取总RNA,RTPCR扩增得到小鼠OPGL胞外片段(sOPGL)cDNA,以特定策略克隆人表达载体pET-42a( ),以便使未来表达产物的融合标签序列能够完全被因子Xa切除。重组载体在大肠杆菌中诱导表达可获得高水平的47kD产物,Western blotting证实它可被OPGL抗体识别。经Glutathione-sepharose 4B亲和层析,除融合蛋白外,还有一约30 kD蛋白与层析柱发生了特异性亲和。该30kD蛋白可被GST-IGF-I多克隆抗体识别,但不能被OPGL抗体识别,提示它的产生乃由于融合蛋白在融合位点附近发生裂解。融合蛋白经Xa因子裂解和进一步纯化,得到分子量约17．5kD的sOPGL。生物活性分析证明,重组sOPGL可以促进OLC的生成,并呈现剂量依赖关系。     

Expression and characterization of recombinant 2',5'-oligoadenylate synthetase from the marine sponge Geodia cydonium

2',5'-oligoadenylate (2-5A) synthetases are known as components of the interferon-induced cellular defence mechanism in mammals. The existence of 2-5A synthetases in the evolutionarily lowest multicellular animals, the marine sponges, has been demonstrated and the respective candidate genes from Geodia cydonium and Suberites domuncula have been identified. In the present study, the putative 2-5A synthetase cDNA from G. cydonium was expressed in an Escherichia coli expression system to characterize the enzymatic activity of the recombinant polypeptide. Our studies reveal that, unlike the porcine recombinant 2-5A synthetase, the sponge recombinant protein associates strongly with RNA from E. coli, forming a heterogeneous set of complexes. No complete dissociation of the complex occurs during purification of the recombinant protein and the RNA constituent is partially protected from RNase degradation. We demonstrate that the sponge recombinant 2-5A synthetase in complex with E. coli RNA catalyzes the synthesis of 2',5'-phosphodiester-linked 5'-triphosphorylated oligoadenylates from ATP, although with a low specific activity. Poly(I).poly(C), an efficient artificial activator of the mammalian 2-5A synthetases, has only a minimal effect (an approximate two-fold increase) on the sponge recombinant 2-5A synthetase/bacterial RNA complex activity.