重组蛋白包涵体的复性研究

重组蛋白在大肠杆菌中的高表达往往形成不可溶、无生物活性的包涵体,需经过变性溶解后,在适当条件下复性形成天然的构象,才可恢复其生物活性．变复性实验是建立在对蛋白质体外折叠机制的了解的基础上．根据近年来对蛋白质折叠机制的认识和重组蛋白包涵体在复性方面的主要进展,论述以下3个方面的内容：1)蛋白质在细胞内的折叠机制;2)蛋白质体外折叠机制;3)蛋白质复性的策略和方法．     

蛋白质内含子在特定氨基酸序列中的剪接

基因工程技术已经被广泛应用于抗体的生产。但是由于抗体的分子量较大,导致合成抗体较为困难。蛋白质内含子是前体蛋白质中的一段氨基酸序列,能够将自身剪切出来,并将两端的外显子连接形成成熟的蛋白质。将抗体的Fab(antigen binding fragment)和Fc(crystalline fragment)分别与蛋白质内含子(intein) 的N端(IN)和C端(IC)融合表达,利用蛋白质内含子的剪接功能,可形成完整的抗体分子。KSCDKTH是存在于抗体铰链区(hinge region)的一段氨基酸序列,如果在KSCDKTH序列中筛选到高效剪接的蛋白质内含子,即可通过蛋白质剪接,将抗体分子的Fab和Fc剪接形成完整抗体。本文筛选发现,Ssp DnaX的3种断裂蛋白质内含子(S0, S1, S11)具有在KSCDKTH序列中高效剪接的能力,这一研究结果为抗体的剪接合成提供了可行性。     

高剪接活性断裂蛋白质内含子的体内切割

蛋白质内含子介导的断裂(切割)反应被用于蛋白质纯化、连接和环化等,但目前仍存在断裂效率低、断裂反应的不可控、产物复杂等问题。蛋白质内含子的定点突变可导致其N端或C端断裂。其末位氨基酸突变则剪接反应第3步天冬酰胺环化无法进行,发生N端断裂;其首位氨基酸发生突变则剪接反应第一步酰基重排及其后续步骤均无法进行,而天冬酰胺环化仍可进行,发生C端断裂。利用已获得的高剪接活性的S1和S11型断裂蛋白质内含子Ssp GyrB,分别将其参与剪接反应的首位半胱氨酸或末位天冬酰胺突变为丙氨酸,构建能够发生一端断裂的断裂蛋白质内含子。研究结果表明,突变后断裂蛋白质内含子的剪接反应几乎不发生,其断裂活性有不同程度的提高,获得了在大肠杆菌体内具有较高效断裂活性的断裂蛋白质内含子。这将为进一步研究其体外可控性剪接、构建高效的蛋白纯化系统和深入研究蛋白质内含子的剪接机制提供基础。     

大肠杆菌BL21(DE3)中DnaE intein介导ABCA1蛋白的连接

摘 要：【目的】利用Ssp DnaE intein的蛋白质反式剪接技术研究在大肠杆菌中对ABCA1基因表达产物的连接作用。【方法】将ABCA1的cDNA于满足剪接所需的保守性氨基酸Cys978密码子前断裂为N端和C端两部分,分别与天然存在的反式作用Ssp DnaE intein的123个氨基酸的N端和36个氨基酸的C端编码序列融合,构建到原核表达载体pET-28a(+)。转化感受态大肠杆菌BL21(DE3)细胞,诱导表达后观察重组蛋白的表达和ABCA1的连接。【结果】转化菌经IPTG诱导表达,SDS-PA     

工程菌BL21-PET21a(+)-phy A表达植酸酶的研究

对来源于Aspergillusniger的植酸酶基因phyA进行了改造 ,去除了内含子和信号肽编码序列后重组到表达载体PET2 1a( + )上 ,导入大肠杆菌BL2 1 (DE3)中 ,构建工程菌株BL2 1 PET2 1a( + ) phyA。植酸酶基因在工程菌株中得到了高效表达。表达产物主要以包涵体形式存在 ,表达量达到菌体蛋白的 30 %以上。改进了包涵体复性技术 ,包涵体蛋白经复性、纯化后 ,生物活性达到 1 5 0 0U mg ,并且复性蛋白具有较好的热稳定性 ,经过 75～ 95℃、30min的热处理后 ,仍然保持了生物活性 ,同时有明显的热激活现象。热激活后最高生物活性达到 5 0 0 0U mg。这一发现对于植酸酶的应用研究具有一定的意义。     

工程菌BL21-PET21a(+)-phyA表达植酸酶的研究

对来源于Aspergillusniger的植酸酶基因phyA进行了改造 ,去除了内含子和信号肽编码序列后重组到表达载体PET2 1a( )上 ,导入大肠杆菌BL2 1 (DE3)中 ,构建工程菌株BL2 1 PET2 1a( ) phyA。植酸酶基因在工程菌株中得到了高效表达。表达产物主要以包涵体形式存在 ,表达量达到菌体蛋白的 30 %以上。改进了包涵体复性技术 ,包涵体蛋白经复性、纯化后 ,生物活性达到 1 5 0 0U mg ,并且复性蛋白具有较好的热稳定性 ,经过 75～ 95℃、30min的热处理后 ,仍然保持了生物活性 ,同时有明显的热激活现象。热激活后最高生物活性达到 5 0 0 0U mg。这一发现对于植酸酶的应用研究具有一定的意义     

不同蛋白标签对LMO2融合蛋白沉淀实验的影响

融合蛋白沉淀技术是一种用来研究蛋白质相互作用的新的体外实验技术, 通常利用蛋白亲和标签与探针蛋白融合表达来钓取未知相互作用蛋白或验证已知蛋白间的相互作用, 其中以谷胱甘肽巯基转移酶(GST)标签最为常用。LMO2(由LIM only缩写得名, 也称Ttg-2或Rbtn2)是一种小分子量难溶蛋白。利用原核系统分别表达了含有GST和麦芽糖结合蛋白(MBP)两种标签的LMO2融合蛋白, 发现GST-LMO2融合蛋白以包涵体的形式表达, 而MBP-LMO2融合蛋白则能够以可溶形式表达, 而且MBP-LMO2的表达量明显高于GST-LMO2融合蛋白。将可溶性的MBP-LMO2融合蛋白和复性后的GST-LMO2融合蛋白分别用于钓取K562细胞中LMO2的结合蛋白, 结果显示二者都可以结合K562细胞中内源性的GATA1蛋白, 而MBP-LMO2融合蛋白捕获的GATA1蛋白明显多于复性后的GST-LMO2融合蛋白。这一结果提示, 在研究一些分子量小、疏水性强的蛋白质时改变标签蛋白可能是一种有益的尝试。     

不同蛋白标签对LMO2融合蛋白沉淀实验的影响

融合蛋白沉淀技术是一种用来研究蛋白质相互作用的新的体外实验技术, 通常利用蛋白亲和标签与探针蛋白融合表达来钓取未知相互作用蛋白或验证已知蛋白间的相互作用, 其中以谷胱甘肽巯基转移酶(GST)标签最为常用。LMO2(由LIM only缩写得名, 也称Ttg-2或Rbtn2)是一种小分子量难溶蛋白。利用原核系统分别表达了含有GST和麦芽糖结合蛋白(MBP)两种标签的LMO2融合蛋白, 发现GST-LMO2融合蛋白以包涵体的形式表达, 而MBP-LMO2融合蛋白则能够以可溶形式表达, 而且MBP-LMO2的表达量明显高于GST-LMO2融合蛋白。将可溶性的MBP-LMO2融合蛋白和复性后的GST-LMO2融合蛋白分别用于钓取K562细胞中LMO2的结合蛋白, 结果显示二者都可以结合K562细胞中内源性的GATA1蛋白, 而MBP-LMO2融合蛋白捕获的GATA1蛋白明显多于复性后的GST-LMO2融合蛋白。这一结果提示, 在研究一些分子量小、疏水性强的蛋白质时改变标签蛋白可能是一种有益的尝试。     

重组人蛋白激酶CK 2α亚基的原核表达、纯化与鉴定

将构建成功的人蛋白激酶 CK2 α亚基 c DNA的重组质粒 ,转化大肠杆菌 BL2 1 ( DE3) ,IPTG诱导后获特异高效表达 ,表达蛋白占菌体总蛋白的 30 % ,但大多数重组蛋白以不溶形式存在 .表达产物依次进行 DE- 5 2、P1 1磷酸纤维素和肝素 - Sepharose柱层析分离 ,最后从 30 9mg可溶性蛋白质中得到 6.1 mg纯化蛋白 . SDS- PAGE显示纯化的蛋白质为一分子量 4 2 k D的单一蛋白带 .Western- blot的结果证明 :纯化的表达产物与抗人 CK2α抗体可发生特异性免疫反应 . CK2α和β亚基等摩尔分子混合可组成有完全活性的全酶 .重组的 CK2全酶的性质和功能与该酶的已知特性一致 .这些结果证明重组蛋白是人蛋白激酶 CK2 α亚基     

重组人RGD-sTRAIL的表达、纯化及抗肿瘤活性研究

利用PCR技术构建RGD短肽与人肿瘤坏死因子凋亡配体(胞外区114-281)的融合基因,将该DNA片段克隆到原核表达载体pET-11a中。重组质粒转化大肠杆菌BL21(DE3),IPTG诱导后可表达相对分子质量约为20000的目的蛋白,占菌体蛋白的20％左右,且大多数重组蛋白以不溶的包涵体形式存在。Western印迹表明目的蛋白具有人sTRAIL的抗原性。表达产物经变性、复性、离子交换层析和分子筛等步骤,可以得到纯度大干95％的RGD-sTRAIL重组蛋白。肿瘤细胞体外实验发现,纯化后的RGD-sTRAIL重组蛋白能明显抑制人肺癌细胞A549生长,并呈剂量依赖性。研究结果表明,通过复性,包涵体中的RGD-sTRAIL蛋白得到正确的折叠,并在体外具有杀伤肿瘤细胞的活性,从而为进一步研究体内靶向性杀伤肿瘤细胞奠定了基础。     

Use of Ssp dnaB derived mini-intein as a fusion partner for production of recombinant human brain natriuretic peptide in Escherichia coli

To prevent in vivo degradation, small peptides are usually expressed in fusion proteins from which target peptides can be released by proteolytic or chemical reagents. In this report, a modified Ssp dnaB mini-intein linked with a chitin binding domain tag was used as a fusion partner for production of human brain natriuretic peptide (hBNP), a hormone for the treatment of congestive heart failure. The fusion protein was expressed as an inclusion body in Escherichia coli. After refolding, the fusion protein was purified with a chitin affinity column, and dnaB mini-intein mediated peptide-bond hydrolysis was triggered by shifting the pH in the chitin column to 7.0 at 25 degrees C for 16 h, which led to the release and separation of hBNP from its fusion partner. The hBNP sample was further purified with reverse phase HPLC and its biological activity was assayed in vitro. It was found that hBNP had a potent vasodilatory effect on rabbit aortic strips with an EC(50) of (1.24+/-0.32)x10(-6)mg/ml, which was similar to that of the synthetic BNP standard. The expression strategy described here promises to produce small peptides without use of proteolytic or chemical reagents.     

High-level expression, purification, and crystallization of recombinant rat leukotriene C(4) synthase from the yeast Pichia pastoris

Chemical-enzymatic synthesis of human Epidermal Growth Factor (hEGF) cDNA has been performed, following by cloning into expression vector pTWIN1 (New England Biolabs). The resulting recombinant fusion protein expressed in Escherichia coli consisted of the N-terminal chitin-binding domain, mini-intein Ssp dnaB domain and hEGF polypeptide at the C-terminus. In this construct, mini-intein Ssp dnaB played a role of catalytically active subunit capable under certain conditions of autocatalytic cleavage resulting in separation of the target protein. As the hybrid protein had several cysteins in its sequence-one in chitin-binding domain, one in mini-intein and six in hEGF, it was necessary to work out optimal scheme for refolding and purification of the recombinant hEGF. As a result of this work, two schemes of the recombinant hEGF purification have been developed: according to the first scheme, the recombinant protein with reduced cysteins is bound to the chitin column, the hEGF is cleaved off and eluted, and then refolded to form appropriate cystein bridges. In the second scheme, the entire hybrid protein is first refolded to form disulfide bonds and then loaded to affinity resin; the recombinant hEGF is cleaved off and eluted in its native state. In spite of the fact that the first scheme is more common and suitable for a variety of recombinant proteins, in case of recombinant hEGF, the second scheme proved to be more productive and cost-effective.     

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.     

Production and purification of recombinant human glucagon overexpressed as intein fusion protein in Escherichia coli

Chemico-enzymatic synthesis and cloning in Esherichia coli of an artificial gene coding human glucagon was performed. Recombinant plasmid containing hybrid glucagons gene and intein Ssp dnaB from Synechocestis sp. was designed. Expression of the obtained hybrid gene in E. coli, properties of the formed hybrid protein, and conditions of its autocatalytic cleavage leading to glucagon formation were studied.     

Minimization of a eukaryotic mini-intein

Inteins are internal protein splicing elements that can autocatalytically self-excise from their host protein and ligate the protein flanks (exteins) with a peptide bond. Large inteins comprise independent protein splicing and endonuclease domains whereas mini-inteins lack the central endonuclease domain. To identify mini-intein domains that are essential for protein splicing, deletions were introduced at different sites of the 157-aa PRP8 mini-intein of Penicillium chrysogenum. The removal of eight and six amino acids at two different sites resulted in a functional eukaryotic mini-intein of only 143 aa.     

Characterization of a self-splicing mini-intein and its conversion into autocatalytic N- and C-terminal cleavage elements: facile production of protein building blocks for protein ligation

The determinants governing the self-catalyzed splicing and cleavage events by a mini-intein of 154 amino acids, derived from the dnaB gene of Synechocystis sp. were investigated. The residues at the splice junctions have a profound effect on splicing and peptide bond cleavage at either the N- or C-terminus of the intein. Mutation of the native Gly residue preceding the intein blocked splicing and cleavage at the N-terminal splice junction, while substitution of the intein C-terminal Asn154 resulted in the modulation of N-terminal cleavage activity. Controlled cleavage at the C-terminal splice junction involving cyclization of Asn154 was achieved by substitution of the intein N-terminal cysteine residue with alanine and mutation of the native C-extein residues. The C-terminal cleavage reaction was found to be pH-dependent, with an optimum between pH6.0 and 7.5. These findings allowed the development of single junction cleavage vectors for the facile production of proteins as well as protein building blocks with complementary reactive groups. A protein sequence was fused to either the N-terminus or C-terminus of the intein, which was fused to a chitin binding domain. The N-terminal cleavage reaction was induced by 2-mercaptoethanesulfonic acid and released the 43kDa maltose binding protein with an active C-terminal thioester. The 58kDa T4 DNA ligase possessing an N-terminal cysteine was generated by a C-terminal cleavage reaction induced by pH and temperature shifts. The intein-generated proteins were joined together through a native peptide bond. This intein-mediated protein ligation approach opens up novel routes in protein engineering.     

Construction of a mini-intein fusion system to allow both direct monitoring of soluble protein expression and rapid purification of target proteins

Affinity purification of recombinant proteins has been facilitated by fusion to a modified protein splicing element (intein). The fusion protein expression can be further improved by fusion to a mini-intein, i.e. an intein that lacks an endonuclease domain. We synthesized three mini-inteins using overlapping oligonucleotides to incorporate Escherichia coli optimized codons and allow convenient insertion of an affinity tag between the intein (predicted) N- and C-terminal fragments. After examining the splicing and cleavage activities of the synthesized mini-inteins, we chose the mini-intein most efficient in thiol-induced N-terminal cleavage for constructing a novel intein fusion system. In this system, green fluorescent protein (GFP) was fused to the C-terminus of the affinity-tagged mini-intein whose N-terminus was fused to a target protein. The design of the system allowed easy monitoring of soluble fusion protein expression by following GFP fluorescence, and rapid purification of the target protein through the intein-mediated cleavage reaction. A total of 17 target proteins were tested in this intein-GFP fusion system. Our data demonstrated that the fluorescence of the induced cells could be used to measure soluble expression of the intein fusion proteins and efficient intein cleavage activity. The final yield of the target proteins exhibited a linear relationship with whole cell fluorescence. The intein-GFP system may provide a simple route for monitoring real time soluble protein expression, predicting final product yields, and screening the expression of a large number of recombinant proteins for rapid purification in high throughput applications.     

In vitro splicing of erythropoietin by the Mycobacterium tuberculosis RecA intein without substituting amino acids at the splice junctions

Protein splicing is a self-catalyzed process involving the excision of an intervening polypeptide sequence, the intein, and joining of the flanking polypeptide sequences, the extein, by a peptide bond. We have studied the in vitro splicing of erythropoietin (EPO) using a truncated form of the Mycobacterium tuberculosis RecA mini-intein in which the homing endonuclease domain was replaced with a hexahistidine sequence (His-tag). The intein was inserted adjacent to cysteine residues to assure that the spliced product had the natural amino acid sequence. When expressed in Escherichia coli, intein-containing EPO was found entirely as inclusion bodies but could be refolded in soluble form in the presence of 0.5 M arginine. Protein splicing of the refolded protein could be induced with a reducing agent such as DTT or tris(2-carboxyethyl)phosphine and led to the formation of EPO and mini-intein along with some cleavage products. Protein splicing mediated by the RecA intein requires the presence of a cysteine residue adjacent to the intein insertion site. We compared the efficiencies of protein splicing adjacent to three of the four cysteine residues of EPO (Cys29, Cys33 and Cys161) and found that insertion of intein adjacent to Cys29 allowed far more efficient protein splicing than insertion adjacent to Cys33 or Cys161. For ease of purification, our experiments involved a His-tagged EPO fusion protein and a His-tagged intein and the spliced products (25 kDa EPO and 24 kDa mini-intein) were identified by Western blotting using anti-EPO and anti-His-tag antibodies and by mass spectroscopy. The optimal splicing yield at Cys29 (40%) occurred at pH 7.0 after refolding at 4 degrees C and splicing for 18 h at 25 degrees C in the presence of 1 mM DTT.     

Regulation of dnaB function in DNA replication in Escherichia coli by dnaC and lambda P gene products

The dnaB protein of Escherichia coli, a multifunctional DNA-dependent ribonucleotide triphosphatase and dATPase, cross-links to ATP on ultraviolet irradiation under conditions that support rNTPase and dATPase activities of dnaB protein. The covalent cross-linking to ATP is specifically inhibited by ribonucleotides and dATP. Tryptic peptide mapping demonstrates that ATP cross-links to only the 33-kDa tryptic fragment (Fragment II) of dnaB protein. The presence of single-stranded DNA alters the covalent labeling of dnaB protein by ATP, suggesting a possible role of DNA on the mode of nucleotide binding by dnaB protein. Present studies demonstrate that the dnaC gene product binds ribonucleotides independent of dnaB protein. On dnaB-dnaC protein complex formation, covalent incorporation of ATP to dnaB protein decreases approximately 70% with a concomitant increase of ATP incorporation to dnaC protein by approximately 3-fold. The mechanism of this phenomenon has been analyzed in detail by titrating dnaB protein with increasing amounts of dnaC protein. The binding of dnaC protein to dnaB protein appears to be a noncooperative process. The lambda P protein, which interacts with dnaB protein in the bacteriophage lambda DNA replication, does not bind ATP in the presence or absence of dnaB protein. However, lambda P protein enhances the covalent incorporation of ATP to dnaB protein approximately 4-fold, suggesting a direct physical interaction between lambda P and dnaB proteins with a probable change in the modes of nucleotide binding to dnaB protein. The lambda P protein likely forms a lambda P-dnaB-ATP dead-end ternary complex. The implications of these results in the E. coli and bacteriophage lambda chromosomal DNA replication are discussed.