富含二硫键的膜蛋白p185胞外区在大肠杆菌中的可溶性表达和性质鉴定

Her2/c-erbB-2基因（其产物为膜蛋白p185）是表皮生长因子受体（EGFR）基因家族的一员,在约30％的乳腺癌中发现了其过量表达。为了鉴定抗p185单克隆抗体的抗原表位并进一步研究它们的相互作用,采用PCR的方法从含Her2/c_erbB_2基因的pBabe/erbB_2质粒中扩增了p185胞外区的富含二硫键的第一、二结构域和第四个结构域。产物克隆到pGEX/4T-1载体后,转化大肠杆菌Origami B（DE3）pLysS菌株,用低浓度IPTG进行低温过夜诱导后将菌体压力破碎,SDS-PAGE检测表达上清,得到了可溶性表达的融合有GST的目的蛋白。经ELISA、Western blot等方法鉴定,可溶性表达产物具有完全的抗体结合活性,且当用凝血酶把GST切掉后该活性仍然保留。P185胞外区融合蛋白的成功表达将为二硫键富含类蛋白的表达提供参考;并为将来具有肿瘤细胞生长抑制活性的抗p185单克隆抗体的抗原表位鉴定,以及为EGFR家族受体的结构和功能关系的研究打下基础。     

白细胞介素12的p35和p40在大肠埃希菌中的克隆表达

目的用基因工程的方法在大肠埃希菌中克隆表达白细胞介素12(IL-12)的两个亚单位基因p35和p40。方法从乳腺癌患者全血中分离淋巴细胞,利用RT—PCR扩增获得了IL-12的2个亚单位基因p35和p40,分别转化到大肠埃希菌中,获得了高效表达。结果薄层扫描分析结果表明,在BL21(DE3)中表达的重组蛋白IL-12P35和IL-12P40分别占菌体裂解液中蛋白总量的39％和30％。结论该实验结果为IL-12在体外的批量生产奠定了基础。     

产肠毒素大肠埃希菌CfaB亚单位的免疫原性分析

目的表达并纯化产肠毒素大肠埃希菌（Enterotoxigenic Escherichia coli,ETEC）CFA／I定居因子的CfaB亚单位,分析其免疫原性。方法将不含信号肽序列的cfaB基因克隆到pQE一30上,构建重组质粒pQE-30-cfaB并转化EcoliM15,表达融合蛋白6xHis—CfaB,将表达的蛋白纯化和复性后免疫BALB／c小鼠,制备抗CfaB的抗血清,用ELISA法检测抗血清效价。结果6×His—CfaB融合蛋白高效表达,相对分子质量为15．5kD,纯化复性后免疫小鼠所得抗血清效价为1：125000。结论成功构建了高效表达6×His-CfaB融合蛋白的重组质粒,表达的融合蛋白免疫小鼠后获得了高效价的抗血清,为进一步研制以双歧杆菌为表达系统的新型ETEC亚单位口服疫苗奠定了基础。     

狂犬病病毒糖蛋白在大肠埃希菌中的表达及鉴定

目的表达狂犬病病毒糖蛋白（GP）,用于狂犬病疫苗免疫抗体评估和狂犬病病毒糖蛋白功能的研究。方法采用分析软件,分析其可能的抗原表位,利用PCR方法扩增狂犬病病毒SRV9疫苗株G蛋白抗原位点区域基因,PCR产物经EcoRI和SalI双酶切后,插入大肠埃希菌表达载体pGEX-6P-1,构建重组表达质粒pGEX-6P-1/G87a和pGEX-6P-1/G100a。将重组质粒转化大肠埃希菌BL21感受态细胞中,在IPTG诱导下表达目的蛋白,进行SDS-PAGE分析。表达蛋白进行电洗脱纯化和Western blot鉴定分析。结果成功构建了pGEX-6P-1/G87a和pGEX-6P-1/G100a表达质粒,序列分析表明,插入片段大小分别为1314 bp和1275 bp。SDS-PAGE分析结果证明,在大肠埃希菌系统中成功表达了狂犬病病毒部分糖蛋白,表达的融合蛋白含有GST标签,大小分别约为74×103和73×103。Western blot鉴定结果表明,表达产物有抗原特异性并能与狂犬病病毒抗血清反应。结论利用大肠埃希菌表达系统成功表达了狂犬病病毒部分糖蛋白,表达产物有良好的反应原性。     

rhSCF在大肠埃希菌中的高效表达及纯化

干细胞因子（SCF）是一种重要的造血生长因子,它在自体造血干细胞动员、肿瘤放疗化疗的辅助治疗以及其它血液病的治疗上具有良好的应用前景。为了制备高纯度、活性的重组人SCF,将人工合成的SCF的cDNA序列,克隆入原核表达载体pET43．1a中,转化大肠埃希菌BL21（DE3）,获得了高效表达菌株。SCF通过诱导表达形成包涵体,包涵体经洗涤、变性和初步纯化后,进行直接稀释复性,复性液经离子交换层析、分子筛层析等分离除去共价二聚体和异构体,获得纯度大于95％的重组人SCF样品,生物学比活性在7．0×10^5U／mg以上。结果表明：建立了有效的rhSCF制备工艺,且产物具有较高的纯度和生物学活性。     

乳腺癌及良性乳腺组织p185和p16蛋白表达的免疫组织化学研究

应用免疫组化S P法检测了 37例良性乳腺组织 (非上皮增生组 17例、上皮增生组 2 0例 )和 5 9例乳腺癌组织中癌基因蛋白 p185和抑癌基因 p16蛋白的表达状况。结果显示非上皮增生组、上皮增生组和癌的p185阳性率分别为 0 %、15 %和 47%(p <0 0 1) ;p16阳性率分别为 41%、30 %和 34%。p185和p16的表达无明显相关性。乳腺癌早期的 p185过表达和p16失表达率高于浸润性导管癌。两者的阳性率均随组织学级别的增高和瘤体的增大而呈上升趋势 ,但 p >0 0 5。淋巴结转移组的p185阳性率 ( 6 4%)明显高于无淋巴结转移者 ( 32 %) ,p <0 0 5。表明 p185过表达和p16失表达在乳腺癌的发生发展中各自发挥独立的作用。p185是乳腺癌重要的肿瘤标志物。     

高赖氨酸蛋白基因在大肠埃希菌中的表达

从四棱豆中克隆高赖氨酸蛋白基因wblys,通过PCR扩增wblys片段,转入原核表达载体pGEX-4T-1,构建pGEX-4T-1/wblys大肠埃希菌工程菌,表达重组蛋白,IPTG诱导后,发现细菌全蛋白在44 ku(含GST标签)处多出1条明显条带。HPLC检测赖氨酸含量。诱导后菌体总赖氨酸含量比正常菌体提高15.84 mg/g。在大肠埃希菌中高效表达植物源高赖氨酸蛋白基因,为该基因在益生菌中表达提供研究工作基础。     

大肠埃希菌trp operon的克隆与表达

色氨酸操纵子所表达酶的高效表达和酶活性的提高,从而构建高产色氨酸菌株.利用PCR的方法从大肠埃希菌基因组中直接克隆色氨酸操纵子,并将其连接到原核表达载体pBV220中,得到重组质粒pBV220-trp operon,转化大肠埃希菌DH5α,温度诱导重组蛋白表达,表达产物经SDS-PAGE分析并用比色法测定其活性.通过凝胶电泳观察PCR扩增产物大小约为7 kb.SDS-PAGE鉴定目的蛋白得到了高效表达,邻氨基苯甲酸合成酶和色氨酸合成酶的活性分别比对照提高了3.4倍和2.5倍.成功构建了重组质粒pBV220-trp operon,邻氨基苯甲酸合成酶和色氨酸合成酶的表达量和表达活性在大肠埃希菌中得到了提高,为高产色氨酸基因工程菌的构建奠定基础.     

犊牛前胸腺素α基因在大肠埃希菌中的表达及活性分析

以RT-PCR法扩增犊牛前胸腺素α基因(prothymosin-α,ProT-α),与原核表达载体pGEX-4T-1连接生成重组质粒pGEX/ProT-α,再将重组表达质粒转化大肠埃希菌BL21(DE3)。重组菌经IPTG诱导后表达的GST-ProT-α融合蛋白主要存在于细菌裂解液中。SDS-PAGE电泳表明,GST—ProT-α融合蛋白表达量较高,分子量为38 ku;Western-blot和动物细胞试验表明,该产物能与胸腺素α1抗体发生特异性免疫反应,并可显著提高小鼠脾细胞增殖率和NK细胞杀伤活性。     

表皮生长因子受体胞外区在哺乳动物细胞HEK293T中的分泌表达和鉴定

目的:融合表达表皮生长因子受体(EGFR)胞外功能区,为制备针对该分子的特异性抗体提供可用的靶标抗原。方法:通过PCR扩增EGFR胞外区基因,将其克隆入真核表达载体pABhFc中,重组质粒瞬时转染HEK293T细胞,进行EGFR的瞬时分泌表达,纯化获得电泳纯级的分泌蛋白,并通过ELISA、Western印迹、Biacore3000系统对融合蛋白进行鉴定。结果:经测序证实扩增得到了正确的EGFR胞外区基因序列,SDS-PAGE初步确认获得了单、双体的EGFR胞外区,ELISA检测证实双体融合蛋白hFc-EGFR可与商业化的EGF特异性结合,Western印迹检测证实单体融合蛋白His-EGFR可与商业化抗体特异性结合;经Biacore3000蛋白分子相互作用系统测定,双体融合蛋白hFc-EGFR与商业化抗体爱必妥的亲和力达0.5 nmol/L。结论:利用哺乳动物细胞HEK293T分泌表达系统获得了结构正确的单、双体2种类型的EGFR胞外区融合蛋白纯品,将用于抗EGFR特异性抗体的筛选。     

SH3 domain of Bruton's tyrosine kinase can bind to proline-rich peptides of TH domain of the kinase and p120cbl

X-linked agammaglobulinemia (XLA), an inherited disease, is caused by mutations in the Bruton's tyrosine kinase (BTK). The absence of functional BTK leads to failure of B-cell differentiation; this incapacitates antibody production in XLA patients, who suffer from recurrent, sometimes lethal, bacterial infections. BTK plays an important role in B-cell development; it interacts with several proteins in the context of signal transduction. Point mutation in the BTK gene that leads to deletion of C-terminal 14 aa residues of BTK SH3 domain was found in a patient family. To understand the role of BTK, we studied binding of BTK SH3 domain (aa 216–273, 58 residues) and truncated SH3 domain (216–259, 44 residues) with proline-rich peptides; the first peptide constitutes the SH3 domain of BTK, while the latter peptide lacks 14 amino acid residues of the C terminal. Proline-rich peptides selected from TH domain of BTK and p120^cbl were studied. It is known that BTK TH domain binds to SH3 domains of various proteins. We found that BTK SH3 domain binds to peptides of BTK TH domain. This suggests that BTK SH3 and TH domains may associate in inter- or intramolecular fashion, which raises the possibility that the kinase may be regulating its own activity by restricting the availability of both its ligand-binding modules. We also found that truncated SH3 domain binds to BTK TH domain peptide less avidly than does normal SH3 domain. Also, we show that the SH3 and truncated SH3 domains bind to peptide of p120^cbl, but the latter domain binds weakly. It is likely that the truncated SH3 domain fails to present to the ligand the crucial residues in the correct context, hence the weaker binding. These results delineate the importance of C terminal in binding of SH3 domains and indicate also that improper folding and the altered binding behavior of mutant BTK SH3 domain likely leads to XLA. Proteins 29:545–552, 1997. © 1997 Wiley-Liss, Inc.     

微紫青霉CBHⅠ酶纤维素结合结构域在大肠杆菌中的分泌型表达及性质研究

为研究纤维素酶纤维素结合结构域的结构与功能 ,进而深入了解天然纤维素的生物降解机制和提高纤维素酶的生物工艺学价值 ,采用 PCR技术体外扩增了携带微紫青霉外切葡聚糖纤维二糖水解酶 ( CBH ) CBD编码区的 DNA片段 ,将 CBD编码区 DNA片段插入带有 Erwiniacarotovora pe1 B前导肽序列的大肠杆菌质粒 p KK- tac- new上进行了表达 .携带微紫青霉 CBDCBH 编码区的大肠杆菌重组菌株 DH5α( p KK- tac- new- 8)产生有活性的分泌型 CBDCBH 蛋白 .SDS-PAGE检测显示所产生的 CBDCBH 蛋白分子量约 1 0 .8k D.在 IPTG诱导下 ,该菌株所产生的CBDCBH 蛋白含量达 45.2 mg/L,且 90 %以上的 CBD蛋白分泌到培养物上清液中 .结晶纤维素 CF-1 1溶液经 CBDCBH 处理后 ,浊度比对照提高了 1 2 8.9% ,天然棉花纤维结构经 CBDCBH 处理后产生一定程度的非水解性降解作用 ,表明微紫青霉 CBDCBH 具有解聚天然结晶纤维素的作用 .     

Enhancement of coenzyme binding by a single point mutation at the coenzyme binding domain of E. coli lactaldehyde dehydrogenase

Phenylacetaldehyde dehydrogenase (PAD) and lactaldehyde dehydrogenase (ALD) share some structural and kinetic properties. One difference is that PAD can use NAD+ and NADP+, whereas ALD only uses NAD+. An acidic residue has been involved in the exclusion of NADP+ from the active site in pyridine nucleotide-dependent dehydrogenases. However, other factors may participate in NADP+ exclusion. In the present work, analysis of the sequence of the region involved in coenzyme binding showed that residue F180 of ALD might participate in coenzyme specificity. Interestingly, F180T mutation rendered an enzyme (ALD-F180T) with the ability to use NADP+. This enzyme showed an activity of 0.87 micromol/(min * mg) and K(m) for NADP+ of 78 microM. Furthermore, ALD-F180T exhibited a 16-fold increase in the V(m) /K(m) ratio with NAD+ as the coenzyme, from 12.8 to 211. This increase in catalytic efficiency was due to a diminution in K(m) for NAD+ from 47 to 7 microM and a higher V(m) from 0.51 to 1.48 micromol/(min * mg). In addition, an increased K(d) for NADH from 175 (wild-type) to 460 microM (mutant) indicates a faster product release and possibly a change in the rate-limiting step. For wild-type ALD it is described that the rate-limiting step is shared between deacylation and coenzyme dissociation. In contrast, in the present report the rate-limiting step in ALD-F180T was determined to be exclusively deacylation. In conclusion, residue F180 participates in the exclusion of NADP+ from the coenzyme binding site and disturbs the binding of NAD+.     

Expression of a soluble glycine binding domain of the NMDA receptor in Escherichia coli

Glycine is an essential co-agonist of the excitatory N-methyl-D-aspartate (NMDA) receptor. The glycine binding site of this subtype of ionotropic glutamate receptors is formed by the S1 and S2 regions of the NR1 subunit. Here, different S1S2 fusion proteins were expressed and purified from Escherichia coli cultures, and refolding protocols were established allowing the production of 30 mg of soluble S1S2 fusion protein from 1 liter bacterial culture. After affinity purification and renaturation, two of the fusion proteins (S1S2 and S1S2-V1) bound the competitive glycine site antagonist [3H]MDL105,519 with K(d) values of 9.35 and 3.9 nM, respectively. In contrast, with three other constructs (S1S2M, S1S2-V2, and -V3) saturable ligand binding could not be obtained. These results redefine the S1S2 domains required for high-affinity glycine binding. Furthermore, our high-affinity binding proteins may be used for the large-scale production of the glycine binding core region for future structural studies.     

猴免疫缺陷病毒衣壳蛋白p27在大肠杆菌中的表达及纯化

目的获得用于SIV检测的衣壳蛋白p27重组抗原。方法利用生物信息学软件选择衣壳蛋白p27抗原表位集中的区域,合成SIV p27基因;将该基因与pMAL-p5x载体连接构建pMAL-p5x-p27重组质粒,并转化大肠杆菌BL21中,诱导表达;用Amylose Resin亲和层析柱对表达产物进行纯化。结果 SDS-PAGE分析显示,pMAL-p5x-p27重组质粒可在大肠杆菌中高效表达,表达产物分子量约为70×103;经纯化获得目的蛋白p27纯度可达90%。结论本研究利用原核表达系统成功表达了SIV p27蛋白,为SIV检测方法的建立奠定了基础。     

Intein 介导的重组人AR DBD的原核可溶性表达、纯化及活性鉴定

雄激素受体通过DNA结合域与效应元件结合发挥作用,在以往的研究中多采用与GST或Protein A融合的方式对雄激素受体的DNA结合域(AR DBD)进行重组表达,但获得无融合标签的纯AR DBD的操作非常繁琐。现借助内含肽介导的自剪切作用经一步亲和层析得到纯度较高的无融合标签的AR DBD,以利于对其性质和功能的研究。通过PCR方法扩增了编码人雄激素受体520~644位氨基酸的核苷酸序列,将该序列克隆入pTWIN1融合表达载体,转化大肠杆菌BL21(DE3)后对诱导温度及IPTG浓度进行优化,重组蛋白几乎全部可溶表达。将可溶性部分吸附到几丁质亲和层析柱上,通过pH诱导的内含肽自剪切作用释放出不含融合标签的重组人AR DBD蛋白,凝胶阻滞分析证明该蛋白只特异性结合保守的雄激素响应元件(ARE),具备正常的生物学活性。     

Solution structure of the E.coli TolA C-terminal domain reveals conformational changes upon binding to the phage g3p N-terminal domain

The Tol-Pal system of Escherichia coli is a macromolecular complex located in the cell envelope. It is involved in maintaining the integrity of the outer membrane and is required for the uptake of two different types of macromolecules, which are bacteriotoxins (colicins) and DNA of filamentous bacteriophages. The TolA protein plays a central role in these import mechanisms. Its C-terminal domain (TolAIII) is involved in the translocation step via direct interaction with the N-terminal domain of colicins and the N-terminal domain of the phage minor coat gene 3 protein (g3pN1). Extreme behaviours of TolAIII have been previously observed, since the structure of TolAIII either remained unaffected or adopted disordered conformation upon binding to different pore-forming colicins. Here, we have solved the 3D structure of free TolAIII by heteronuclear NMR spectroscopy and compared it to the crystal structure of TolAIII bound to g3pN1 in order to study the effect of g3pN1 on the tertiary structure of TolAIII. Backbone 1H, 15N and 13C resonances of the g3pN1-bound TolAIII were also assigned and used to superimpose the solution structure of free TolAIII on the crystal structure of the g3pN1-TolAIII fusion protein. This allowed us to track conformational changes of TolAIII upon binding. While the global fold of free TolAIII is mainly identical to that of g3pN1-bound TolAIII, shift of secondary structures does occur. Thus, TolAIII, which interacts also in vivo with Pal and TolB, is able to adapt its conformation upon binding to various partners. Possible models for protein binding mechanisms are discussed to explain this so-far unobserved behaviour of TolAIII.     

Targeted molecular dynamics simulation studies of binding and conformational changes in E. coli MurD

Enzymes involved in the biosynthesis of bacterial peptidoglycan, an essential cell wall polymer unique to prokaryotic cells, represent a highly interesting target for antibacterial drug design. Structural studies of E. coli MurD, a three-domain ATP hydrolysis driven muramyl ligase revealed two inactive open conformations of the enzyme with a distinct C-terminal domain position. It was hypothesized that the rigid body rotation of this domain brings the enzyme to its closed active conformation, a structure, which was also determined experimentally. Targeted molecular dynamics 1 ns-length simulations were performed in order to examine the substrate binding process and gain insight into structural changes in the enzyme that occur during the conformational transitions into the active conformation. The key interactions essential for the conformational transitions and substrate binding were identified. The results of such studies provide an important step toward more powerful exploitation of experimental protein structures in structure-based inhibitor design.     

PUMA-BH3结构域短肽的原核表达、纯化及促凋亡活性鉴定

Bcl-2家族蛋白质在线粒体途径凋亡的调控机制中起着重要的作用,p53正向细胞凋亡调控因子（p53 up-regulated modulator of apoptosis protein,PUMA)是该家族的一种只含有BH3同源区域的促凋亡蛋白。为得到PUMA的BH3结构域短肽并检测其生物学活性,将人工合成的编码PUMA-BH3肽的DNA片段克隆到质粒pTYB2上,构建出表达PUMA-BH3-内含肽-几丁质结合域融合蛋白的原核表达载体pTYB2-PUMA-BH3,转化大肠杆菌BL-21(DE3)中IPTG诱导表达。表达的融合蛋白经几丁质亲和层析、二硫苏糖醇（DTT）的柱内还原,直接获得可溶性PUMA-BH3肽。通过研究重组PUMA-BH3肽在体外条件下对线粒体活力、线粒体肿胀度以及细胞色素c释放的影响来鉴定其生物学活性。结果表明,获得的可溶性PUMA-BH3肽能作用于离体线粒体,引起线粒体活力降低,线粒体肿胀并能诱导细胞色素c释放。环孢菌素A对此有一定的抑制作用,提示PUMA-BH3肽对线粒体的上述作用是通过促进通透性转运孔( PTP)开放实现的。经原核表达及纯化,获得了具有促凋亡活性的PUMA-BH3肽,为进一步研制控制凋亡过程的药物奠定了基础。