还原酶缺陷型大肠杆菌对重组蛋白溶解性的影响

探讨大肠杆菌细胞质氧化还原环境对重组蛋白溶解性的影响。选择含有1对二硫键的牛碱性成纤维细胞生长因子（BbFGF）作为简单蛋白的模式分子,选择含有2对二硫键的人抗HBsAg单链抗体（HBscFv）作为复杂蛋白的模式分子,分别构建表达质粒并转化普通宿主菌和还原酶缺陷型宿主菌E. coli Origami(DE3),比较表达产物的溶解性和纯化产物的活性。结果发现,BbFGF在普通宿主菌中大部分形成包涵体,在Origami(DE3)中为可溶性表达,但表达量降低。两种工程菌的表达产物经离子交换和肝素亲和层析两步纯化后,MTT法测定活性,发现来自还原酶缺陷型宿主菌的BbFGF活性高于普通宿主菌表达产物,二者的ED₅₀分别是1.6 ng/mL和2.2 ng/mL;HBscFv在两种宿主菌中均形成包涵体,包涵体以6 mol/L盐酸胍缓冲液溶解后,镍离子螯合亲和层析纯化并透析复性,间接ELISA测定抗原结合活性,发现二者活性无明显差异,但在Origami(DE3)菌体破碎后的的上清中可检测到HBscFv活性,纯化后产量为1～2 mg/L,而在普通宿主菌破碎后的上清中检测不到HBscFv活性。上述结果说明,改变宿主菌细胞质氧化还原环境对于含有1～2对二硫键的重组蛋白的可溶性表达具有明显促进作用。     

An unusual halotolerant alpha-type carbonic anhydrase from the alga Dunaliella salina functionally expressed in Escherichia coli

A 60-kDa, salt-inducible, internally duplicated alpha-type carbonic anhydrase (Dca) is associated with the plasma membrane of the extremely salt-tolerant, unicellular, green alga Dunaliella salina. Unlike other carbonic anhydrases, Dca remains active over a very broad range of salinities (0-4M NaCl), thus representing a novel type of extremely halotolerant enzyme. To elucidate the structural principles of halotolerance, structure-function investigations of Dca have been initiated. Such studies require considerable amounts of the enzyme, and hence, large-scale algal cultivation. Furthermore, the purified enzyme is often contaminated with other, co-purifying algal carbonic anhydrases. Expression in heterologous systems offers a means to produce, and subsequently purify, sufficiently large amounts of Dca required for activity and structural studies. Attempts to over-express Dca in the Escherichia coli BL21(DE3)pLysS strain, after optimizing various expression parameters, produced soluble, but weakly active protein, composed of fully reduced and variably -S-S- cross-linked chains (each of the Dca repeats contains a pair of cysteine residues, presumably forming a disulfide bond). However, when the E. coli Origami B(DE3)pLysS strain was used as a host, a functionally active enzyme with proper disulfide bonds was formed in good yield. Affinity-purified recombinant Dca resembled the native enzyme from D. salina in activity and salt tolerance. Hence, this expression system offers a means of pursuing detailed studies of this extraordinary protein using biochemical, biophysical, and crystallographic approaches.     

Cloning,expression, and characterization of an antifungal chitinase from Leucaena leucocephala de Wit

Chitinase cDNAs from Leucaena leucocephala seedlings were cloned by PCR amplification with degenerate primers based on conserved class I chitinase sequences and cDNA library screening. Two closely related chitinase cDNAs were sequenced and inferred to encode precursor proteins of 323 (KB1) and 326 (KB2) amino acids. Expression of the KB2 chitinase from a pET32a plasmid in Origami (DE3) Escherichia coli produced high chitinase activity in the cell lysate. The recombinant thioredoxin fusion protein was purified and cleaved to yield a 32-kDa chitinase. The recombinant chitinase hydrolyzed colloidal chitin with endochitinase-type activity. It also inhibited growth of 13 of the 14 fungal strains tested.     

Production of native protein by using Synechocystis sp. PCC6803 DnaB mini-intein in Escherichia coli

To directly express native recombinant proteins in Escherichia coli, a new expression vector pSB was constructed using Ssp DnaB mini-intein. Using the vector, native proteins could be produced with the help of C-terminal self-cleavage of the intein. In this study, we cloned hIFNalpha-4 gene into pSB and used E. coli strain Origami B (DE3) as the host. Expression experiments were carried out both in Shake flasks and a 5 L bioreactor. The results indicated hIFNalpha-4 could be expressed in the form of soluble protein with correct folding in E. coli. The maximal hIFNalpha-4 content was 21.7% of total protein, and the antiviral activity of the protein was 1.2x10(8 )IU mg(-1). Overall, good effects were achieved with this system. This intein-mediated protein expression system opens up a useful method for production of native recombinant protein in E. coli.     

核酸酶P1的原核表达、纯化及酶学特性分析

为了建立一种核酸酶P1(Nuclease P1,NP1)的原核表达纯化系统,首先采用重叠延伸PCR将22段寡核苷酸拼接,获得人工合成的NP1基因。将其克隆至分泌型表达载体pMAL-p4X获得重组质粒pMAL-p4X-NP1,然后将重组载体转化T7 Express和Origami B(DE3)菌株诱导表达,利用Amylose亲和层析柱纯化获得重组蛋白,并对其活性、热稳定性和金属离子依赖性进行系统分析。SDS-PAGE结果显示,重组蛋白MBP-NP1(Maltose binding protein-NP1)在T7 Express和Origami B(DE3)菌株中均可表达,且以可溶性形式存在。活性检测表明Origami B(DE3)菌株中获得的重组蛋白活性高于T7 Express菌株(75.48 U/mg:51.50 U/mg);利用蛋白酶Factor Xa切除MBP标签后,两种重组蛋白的比活力均有提高,分别为258.13 U/mg和139.20 U/mg。重组NP1表现出良好的热稳定性,80℃温浴30 min后重组酶仍具有90%以上的活力。2.0 mmol/L Zn2+对NP1有比较明显的激活作用,相同浓度的Cu2+则对该酶有强烈的抑制作用。该研究实现了NP1在大肠杆菌系统中的功能性表达,为NP1纯酶的制备提供一个替代途径。     

Expression of Candida antarctica lipase B in Pichia pastoris and various Escherichia coli systems

Candida antarctica lipase B (CALB) carrying a point mutation, N74S, resulting in a non-glycosylated protein was actively expressed in Pichia pastoris yielding 44 mg/L which was similar to that of the glycosylated CALB wild type expressed in P. pastoris. Hence, the major obstacle in the Escherichia coli expression of CALB is not the lack of glycosylation. To understand and improve the expression of CALB in E. coli, a comprehensive investigation of four different systems were tested: periplasmic expression in Rosetta (DE3), cytosolic expression in Rosetta-gami 2(DE3) and Origami 2(DE3) as well as co-expression with chaperones groES and groEL in Origami B(DE3), all using the pET-22b(+) vector and the T7lac promoter. Furthermore the E. coli expression was carried out at three different temperatures (16, 25 and 37 degrees C) to optimise the expression. Periplasmic expression resulted in highest amount of active CALB of the four systems, yielding a maximum of 5.2mg/L culture at 16 degrees C, which is an improvement to previous reports. The specific activity of CALB towards tributyrin in E. coli was found to be the same for periplasmic and cytosolic expression. Active site titration showed that the CALB mutant N74S had a lower specific activity in comparison to wild type CALB regardless of expression host. The expected protein identity was confirmed by LC-ESI-MS analysis in E. coli, whereas in P. pastoris produced CALB carried four additional amino acids from an incomplete protein processing.     

Expression and characterization of a His-tagged 11S seed globulin from Amaranthus hypochondriacus in Escherichia coli

DNA encoding a His-tagged 11S globulin from Amaranthus hypochondriacus (amarantin) was successfully expressed in Escherichia coli strains BL21 (DE3) and Origami (DE3). The two strains produced different accumulation patterns. Whereas most of the proamarantin expressed in BL21 (DE3) was localized in inclusion bodies, that produced in Origami (DE3) was soluble (76 mg/L). Sucrose density gradient ultracentrifugation analysis of the expressed soluble proamarantin revealed that the protein was assembled into trimers. Treatment of proamarantin trimers in vitro using purified asparaginyl endopeptidase resulted in the appearance of peptides of the sizes expected for acidic and basic chains. Because the proamarantin assembles into trimers with the expected sedimentation characteristics and is cleaved into acidic and basic chains rather than being degraded, the results suggest that the protein folding occurring in E. coli is similar to that taking place in seeds. The His-tagged proamarantin was purified in a single step by immobilized metal affinity chromatography with a final yield of 48 mg/L. The overexpression of proamarantin in E. coli, together with the one-step purification will facilitate further investigation of this storage protein through site-directed mutagenesis.     

Heterologous expression and purification of active divercin V41, a class IIa bacteriocin encoded by a synthetic gene in Escherichia coli

Divercin V41, a class IIa bacteriocin with strong antilisterial activity, is produced by Carnobacterium divergens V41. To express a recombinant version of divercin V41, we constructed a synthetic gene that encodes the mature divercin V41 peptide and then overexpressed the gene in pET-32b by using the T7 RNA polymerase promoter in the Escherichia coli Origami (DE3)(pLysS) strain. The DvnRV41 peptide was expressed as a translational fusion protein with thioredoxin and accumulated in the cell cytoplasm in a soluble anti-Listeria active form. The fusion protein was then purified and cleaved to obtain pure, soluble, folded DvnRV41 (462 microg per 20 ml of culture). This paper describes the first design of a synthetic bacteriocin gene and the first bacteriocin expressed in the E. coli cytoplasm.     

Biosynthesis of trypanothione in Trypanosoma brucei brucei

Trypanothione [T(SH)2], the major redox mediator in pathogenic trypanosomatids, is synthetized stepwise by two distinct enzymes in Crithidia fasciculata, while in Trypanosoma cruzi a single enzyme catalyzes both steps. A full-length reading frame presumed to encode trypanothione synthetase (TryS) was obtained by PCR using DNA of T. brucei as template and primers based on fragments of putative TryS genes. The recombinant protein produced by E. coli Origami (DE3) was purified to homogeneity by chelate and ion exchange chromatography. The enzyme catalyzed both reactions of T(SH)2 biosynthesis. Thus, T(SH)2 synthesis appears to be similar in African (T. brucei) and New World (T. cruzi) trypanosomes but distinct from that of Crithidia.     

Heterologous expression,purification, and enzymatic activity of Mycobacterium tuberculosis NAD(+) synthetase

The enzyme NAD(+) synthetase (NadE) catalyzes the last step of NAD biosynthesis. Given NAD vital role in cell metabolism, the enzyme represents a valid target for the development of new antimycobacterial agents. In the present study we expressed and purified two putative forms of Mycobacterium tuberculosis NAD(+) synthetase, differing in the polypeptide chain length (NadE-738 and NadE-679). Furthermore, we evaluated several systems for the heterologous expression and large scale purification of the enzyme. In particular, we compared the efficiency of production, the yield of purification, and the catalytic activity of recombinant enzyme in different hosts, ranging from Escherichia coli strains to cultured High Five (Trichoplusia ni BTI-TN-5B1-4) insect cells. Among the systems assayed, we found that the expression of a thioredoxin-NadE fusion protein in E. coli Origami(DE3) is the best system in obtaining highly pure, active NAD(+) synthetase. The recombinant enzyme maintained its activity even after proteolytic cleavage of thioredoxin moiety. Biochemical evidence suggests that the shorter form (NadE-679) may be the real M. tuberculosis NAD(+) synthetase. These results enable us to obtain a purified product for structure-function analysis and high throughput assays for rapid screening of compounds which inhibit enzymatic activity.     

Production of human prolyl 4-hydroxylase in Escherichia coli

Prolyl 4-hydroxylase (P4H) catalyzes the post-translational hydroxylation of proline residues in collagen strands. The enzyme is an alpha2beta2 tetramer in which the alpha subunits contain the catalytic active sites and the beta subunits (protein disulfide isomerase) maintain the alpha subunits in a soluble and active conformation. Heterologous production of the native alpha2beta2 tetramer is challenging and had not been reported previously in a prokaryotic system. Here, we describe the production of active human P4H tetramer in Escherichia coli from a single bicistronic vector. P4H production requires the relatively oxidizing cytosol of Origami B(DE3) cells. Induction of the wild-type alpha(I) cDNA in these cells leads to the production of a truncated alpha subunit (residues 235-534), which assembles with the beta subunit. This truncated P4H is an active enzyme, but has a high Km value for long substrates. Replacing the Met235 codon with one for leucine removes an alternative start codon and enables production of full-length alpha subunit and assembly of the native alpha2beta2 tetramer in E. coli cells to yield 2 mg of purified P4H per liter of culture (0.2 mg/g of cell paste). We also report a direct, automated assay of proline hydroxylation using high-performance liquid chromatography. We anticipate that these advances will facilitate structure-function analyses of P4H.     

Catalase-peroxidase from the cyanobacterium Synechocystis PCC 6803: cloning, overexpression in Escherichia coli, and kinetic characterization.

The Synechocystis PCC 6803 katG gene encodes a dual-functional catalase-peroxidase (EC 1.11.1.7). We have established a system for the high level expression of a fully active recombinant form of this enzyme. Its entire coding DNA was extended using a synthetic oligonucleotide encoding a hexa-histidine tag at the C-terminus and expressed in Escherichia coli [BL21-(DE3)pLysS] using the pET-3a vector. Hemin was added to the culture medium to ensure its proper association with KatG upon induction. The expressed protein was purified to homogeneity by two chromatography steps including a metal chelate affinity and hydrophobic interaction chromatography. The homodimeric acidic protein (pl = 5.4) had a molecular mass of 170 kDa and a Reinheitszahl (A406/A280) of 0.64. The recombinant protein contained high catalase activity (apparent Km = 4.9 +/- 0.25 mM and apparent kcat = 3500 s(-1)) and an appreciable peroxidase activity with o-dianisidine, guaiacol and pyrogallol, but not with NAD(P)H, ferrocytochrome c, ascorbate or glutathione as electron donors. By using both conventional and sequential stopped-flow spectroscopy, formation of compound I with peroxoacetic acid was calculated to be (8.74 +/- 0.26) x 10(3) M(-1) s(-1), whereas compound I reduction by o-dianisidine, pyrogallol and ascorbate was determined to be (2.71 +/- 0.03) x 10(6) M(-1) S(-1), (8.62 +/- 0.21) x 10(4) M(-1) S(-1), and (5.43 +/- 0.19) x 10(3) M(-1) S(-1), respectively. Cyanide binding studies on native and recombinant enzyme indicated that both have the same heme environment. An apparent second-order rate constant for cyanide binding of (4.8 +/- 0.1) x 10(5) M(-1) S(-1) was obtained.     

人sBCMA cDNA的克隆、高可溶性融合表达及活性分析

BCMA是除TACI外BAFF和APRIL共用的另一细胞表面受体。为了研究sBCMA作为拮抗受体的可能及获得活性sBCMA蛋白用做结构功能研究,我们以RTPCR法从人B系非洲淋巴瘤细胞株Raji总RNA中扩增出人BCMA的全长cDNA,经克隆测序证实所克隆的基因为人BCMA。继而通过嵌套PCR扩增出胞外可溶区(sBCMA,46个氨基酸组成,含有一个6个半胱氨酸的保守CRD,构成3个二硫键)cDNA,构建原核表达载体pET43.1a( )sBCMA,在大肠杆菌菌株OrigamiB(DE3)pLysS中高可溶性融合表达出重组蛋白sBCMANusAHis6,同时克隆表达了融合蛋白NusAHis6。经Ni NTA亲和纯化后的目的蛋白进行细胞学实验表明sBCMA能特异阻断BAFF促小鼠B细胞的增殖作用,而NusAHis6则不能,证实我们所表达得到的受体胞外可溶性片段sBCMA与配体具有较高的结合活性。sBCMA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,并为研究其临床应用以及BAFF和APRIL受体结构和功能的关系奠定基础。     

幽门螺杆菌VacA重组蛋白表达、纯化及鉴定

目的研究幽门螺杆菌空泡毒素（VacA）编码基因在大肠埃希菌中的表达及纯化重组蛋白的抗原性。方法将PET32a-vacA-E.coli BE21（DE3）工程菌株常规培养,碱裂解法小量提取重组质粒DNA,琼脂糖凝胶电泳进行酶切鉴定,基因测序法进行插入基因序列分析。重组蛋白采用IPTG诱导表达,镍亲和层析原理提纯,ELISA法检测其抗原性。结果经酶切鉴定表明,插入的基因片段全长约2240bp,测序分析及与Genebank比较,可以肯定插入片段为vacA基因,ELISA法检测重组蛋白具有良好的抗原性。结论VacA重组蛋白在大肠埃希菌中成功表达,重组蛋白具有良好的抗原性。     

炭疽杆菌噬菌体裂解酶基因在大肠杆菌中的表达及鉴定

利用PCR方法扩增炭疽杆菌噬菌体裂解酶 (γlysin)基因 ,克隆至大肠杆菌表达载体pET2 2b中 ,经菌落PCR筛选、序列测定和酶切鉴定证实表达载体pET22b-γlysin构建成功 ,并在EscherichiacoliBL21(DE3)中获得了高表达。目的蛋白约占菌体总蛋白的40% ,5L发酵罐中的产酶水平高达 15g L。菌体经超声破碎 ,制备无细胞抽提液 ,StreamlineSP和SPHP柱层析以及SephacrylS-100凝胶过滤三步纯化 ,得到分子量为 2 7kD单一条带的目的蛋白 ,薄层扫描分析显示其纯度大于 95 %。目的蛋白的收率为19.1% ,纯化倍数为350。生物活性鉴定重组的γ噬菌体裂解酶具有特异性 :可快速裂解炭疽杆菌 ,比活为 1400u mg左右 ;而对大肠杆菌、枯草杆菌及蜡样芽孢杆菌没有裂解活性。     

Active suppression of EndoPG IV by ligation of the pro-sequence from Stereum purpureum Pro-EndoPG I

We attempted to inactivate endopolygaolacturonase from Stereum purpureum (EndoPG) IV of identical origin by linking the pro-sequence of S. purpureum Pro-EndoPG I to the C-terminus. The recombinant Pro-EndoPG IV, expressed in Escherichia coli, had no polygalacturonase (PG) activity, but activity was acquired after partial degradation of the pro-sequence with V8 protease, as was the case for Pro-EndoPG I. These results indicate that the pro-sequence of Pro-EndoPG I can suppress the PG activity of EndoPG IV.     

Determination of glycosylation sites, disulfide bridges, and the C-terminus of Stereum purpureum mature endopolygalacturonase I by electrospray ionization mass spectrometry.

Stereum purpureum endopolygalacturonase (endoPG; EC 3.2.1.15) is a causal protein for silver-leaf disease in apple trees. Endopolygalacturonase I, is a mixture of three components (Ia, Ib, and Ic) that produce three bands on SDS/PAGE but have the same polypeptide and sugar chains. Electrospray ionization mass spectrometry (ESI-MS) analysis of three endoPG I proteins and deglycosylated endoPG Ia revealed a molecular mass of 37 068, 38 285, and 39 503 for Ia, Ib, and Ic, respectively; the number of N-binding sugar chains matches that of a high-mannose type of sugar chain. Two, three, and four sugar chains are present in endoPG Ia, Ib, and Ic, respectively. Deletion of 44 amino acids from the deduced sequence occurred in the C-terminal region. Positions of the glycosylation sites and disulfide bridges were decided by tryptic digestion followed by liquid chromatography-electrospray mass spectrometry (LC-ESI-MS) analysis of reductive and nonreductive pyridylethylated endoPG I proteins. The glycosylated asparagines were determined to be Asn92 and 161; Asn92, 161, 279, or 302; and Asn92, 161, 279, and 302 in Ia, Ib, and Ic, respectively. Three disulfide bridges were noted at Cys3-Cys17, Cys175-Cys191, and Cys300-Cys303. These results are the first findings for fungal endoPG and may contribute to clarification of the relationship between stereostructure and catalytic activity.     

Re-design of Rhodobacter sphaeroides dimethyl sulfoxide reductase. Enhancement of adenosine N1-oxide reductase activity

The periplasmic DMSO reductase from Rhodobacter sphaeroides f. sp. denitrificans has been expressed in Escherichia coli BL21(DE3) cells in its mature form and with the R. sphaeroides or E. coli N-terminal signal sequence. Whereas the R. sphaeroides signal sequence prevents formation of active enzyme, addition of a 6x His-tag at the N terminus of the mature peptide maximizes production of active enzyme and allows for affinity purification. The recombinant protein contains 1.7-1.9 guanines and greater than 0.7 molybdenum atoms per molecule and has a DMSO reductase activity of 3.4-3.7 units/nmol molybdenum, compared with 3.7 units/nmol molybdenum for enzyme purified from R. sphaeroides. The recombinant enzyme differs from the native enzyme in its color and spectrum but is indistinguishable from the native protein after redox cycling with reduced methyl viologen and Me2SO. Substitution of Cys for the molybdenum-ligating Ser-147 produced a protein with DMSO reductase activity of 1.4-1.5 units/nmol molybdenum. The mutant protein differs from wild type in its color and absorption spectrum in both the oxidized and reduced states. This substitution leads to losses of 61-99% of activity toward five substrates, but the adenosine N1-oxide reductase activity increases by over 400%.     

表达大肠杆菌K88ac-ST1-LTB融合蛋白基因工程菌株的构建

利用PCR技术,从大肠杆菌C83902质粒中扩增出K88ac基因、ST1突变基因和LTB基因,通过分离、纯化、内切酶酶切、连接和转化,构建了含K88ac-ST1-LTB融合基因表达载体的重组菌株BL21（DE3）（pXKST3LT5)。经酶切鉴定和DNA序列分析证实,构建的重组质粒pXKST3LT5中含有K88ac-ST1-LTB融合基因,且基因序列和阅读框架均正确。经ELISA检测,重组菌株表达的K88ac-ST1-LTB融合蛋白能够被ST1单抗、LTB和K88ac抗体识别。经乳鼠灌胃试验证实,表达的融合蛋白已丧失天然ST1肠毒素的活性。免疫实验结果表明,K88ac-ST1-LTB融合蛋白能够诱发小白鼠产生抗体,该抗体具有中和天然ST1肠毒素的毒性作用,表明构建的重组菌株可以作为预防仔猪黄、白痢基因工程菌苗的候选菌株。     

Polycationic amino acid tags enhance soluble expression of Candida antarctica lipase B in recombinant Escherichia coli

Lipase (EC 3.1.1.3) is a popular enzyme used as an ingredient in detergents and biocatalyst in many biochemical reactions. Lipase is usually expressed in Escherichia coli as an inactive inclusion body and at a low level. In this study, Candida antarctica lipase B (CalB) was fused with various polycationic amino acid tags and expressed in E. coli in order to increase a soluble expression level. By induction with 1.0 mM IPTG, the authentic and fused CalBs were expressed at 27-56% of total protein. The 10-arginine and 10-lysine tags fused at the C-terminal of CalB significantly increased the solubility of CalB by five- to ninefold, relative to the case of the authentic CalB expressed in a recombinant E. coli Origami 2? (DE3) strain. Among a series of the C-terminal poly-arginine tags, the recombinant CalB combined with the 10-arginine tag (CalB-R10) possessed the highest lipase specific activity of 9.5 ± 0.03 U/mg protein, corresponding to a fourfold enhancement compared with the authentic CalB.