Expression and purification of recombinant proteins from Escherichia coli: Comparison of an elastin-like polypeptide fusion with an oligohistidine fusion

Thermally responsive elastin like polypeptides (ELPs) can be used to purify proteins from Escherichia coli culture when proteins are expressed as a fusion with an ELP. Nonchromatographic purification of ELP fusion proteins, termed inverse transition cycling (ITC), exploits the reversible soluble-insoluble phase transition behavior imparted by the ELP tag. Here, we quantitatively compare the expression and purification of ELP and oligohistidine fusions of chloramphenicol acetyltransferase (CAT), blue fluorescent protein (BFP), thioredoxin (Trx), and calmodulin (CalM) from both a 4-h culture with chemical induction of the plasmid-borne fusion protein gene and a 24-h culture without chemical induction. The total protein content and functional activity were quantified at each ITC purification step. For CAT, BFP, and Trx, the 24-h noninduction culture of ELP fusion proteins results in a sevenfold increase in the yield of each fusion protein compared to that obtained by the 4-h-induced culture, and the calculated target protein yield is similar to that of their equivalent oligohistidine fusion. For these proteins, ITC purification of fusion proteins also results in approximately 75% recovery of active fusion protein, similar to affinity chromatography. Compared to chromatographic purification, however, ITC is inexpensive, requires no specialized equipment or reagents, and because ITC is a batch purification process, it is easily scaled up to accommodate larger culture volumes or scaled down and multiplexed for high-throughput, microscale purification; thus, potentially impacting both high-throughput protein expression and purification for proteomics and large scale, cost-effective industrial bioprocessing of pharmaceutically relevant proteins.     

黄鳍金枪鱼抗菌肽YFGAP在大肠杆菌中融合表达及其活性检测

【目的】抗菌肽YFGAP由32个氨基酸组成,分子量为3.4 kD,对革兰氏阳性菌(G+)和革兰氏阴性菌(G?)表现出强效的抑制作用,不具有溶血活性。在大肠杆菌中表达抗菌肽YFGAP,分离纯化抗菌肽并鉴定其生物学活性。【方法】化学合成EK-YFGAP和L-EK-YFGAP基因序列,构建表达载体pET22b-ELP20-EK-YFGAP、pET22b-ELP40-EK-YFGAP和pET22b-ELP40-L-EK- YFGAP,分别转化至大肠杆菌BL21(DE3)中诱导表达,可逆相变循环纯化融合蛋白。肠激酶酶切,经Vivaspin Turbo纯化柱纯化,测定重组抗菌肽的抑菌活性和溶血活性。【结果】纯化出两种融合蛋白ELP40-EK-YFGAP和ELP40-L-EK-YFGAP,肠激酶酶切纯化后获得重组抗菌肽YFGAP,对4种病原菌均有抑制效果,溶血活性较低。【结论】以ELPs作为非色谱纯化标签,实现了抗菌肽YFGAP的融合表达,具有操作简单、成本低、易于扩大的优势,为重组抗菌肽的量化制备及应用提供了理论基础和技术支持。     

快速纯化重组腺联病毒的受体结合捕捉方法

【目的】建立用于重组腺联病毒(AAV)纯化的受体结合捕捉方法。【方法】将AAV受体的多囊肾病(PKD)结构域1和2与类弹性蛋白多肽(ELP)在重组大肠杆菌中进行融合表达,利用相变循环(ITC)纯化ELP-PKD融合蛋白;分别用昆虫和AAV-293细胞制备rAAV-GFP,与ELP-PKD融合蛋白共孵育后进行ITC,从沉淀复合物提取病毒DNA进行PCR检测;在优化条件下利用ELP-PKD蛋白结合捕捉rAAV-GFP,利用电子显微镜观察、免疫转印和细胞感染试验进行rAAV鉴定。【结果】ELP-PKD融合蛋白获得正确、可溶性表达,ITC纯化的蛋白纯度大于90%;ELP-PKD蛋白能特异结合rAAV-GFP,结合具有p H、温度和时间依赖性,受体结合捕捉方法可在1h内完成,从两种细胞纯化rAAV-GFP的回收率分别为58%和56%;rAAV-GFP洗脱具有p H和温度依赖性,洗脱rAAV-GFP的回收率分别为46%和44%;纯化rAAV-GFP具有AAV的典型形态和结构蛋白。【结论】建立的ELP-PKD结合捕捉法可用于不同细胞源rAAV的快速纯化。     

Optimization of elastin‐like polypeptide fusions for expression and purification of recombinant proteins in plants

The demand for recombinant proteins for medical and industrial use is expanding rapidly and plants are now recognized as an efficient, inexpensive means of production. Although the accumulation of recombinant proteins in transgenic plants can be low, we have previously demonstrated that fusions with an elastin‐like polypeptide (ELP) tag can significantly enhance the production yield of a range of different recombinant proteins in plant leaves. ELPs are biopolymers with a repeating pentapeptide sequence (VGVPG)_n that are valuable for bioseparation, acting as thermally responsive tags for the non‐chromatographic purification of recombinant proteins. To determine the optimal ELP size for the accumulation of recombinant proteins and their subsequent purification, various ELP tags were fused to green fluorescent protein, interleukin‐10, erythropoietin and a single chain antibody fragment and then transiently expressed in tobacco leaves. Our results indicated that ELP tags with 30 pentapeptide repeats provided the best compromise between the positive effects of small ELP tags (n = 5–40) on recombinant protein accumulation and the beneficial effects of larger ELP tags (n = 80–160) on recombinant protein recovery during inverse transition cycling (ITC) purification. In addition, the C‐terminal orientation of ELP fusion tags produced higher levels of target proteins, relative to N‐terminal ELP fusions. Importantly, the ELP tags had no adverse effect on the receptor binding affinity of erythropoietin, demonstrating the inert nature of these tags. The use of ELP fusion tags provides an approach for enhancing the production of recombinant proteins in plants, while simultaneously assisting in their purification. Biotechnol. Bioeng. 2009;103: 562–573. © 2009 Wiley Periodicals, Inc.     

Expression and purification of the antimicrobial peptide cecropin AD by fusion with cationic elastin-like polypeptides

Cationic elastin-like polypeptides (CELP) are thermally responsive polypeptides that undergo an inverse temperature phase transition, and the recombinant CELP fusion proteins may be purified by inverse transition cycling (ITC). To obtain high-purity antimicrobial peptide cecropin AD (CAD), CELP was placed at the N-terminus of CAD and the expression vector pET28a-CELP-CAD was constructed. The expression vector was then transformed into Escherichia coli BL21 (DE3) to express the recombinant protein. After three rounds of ITC, enterokinase digestion and another hot spin, 1.2mg recombinant CAD was purified from 100ml culture medium. The antimicrobial test indicated that the high-purity CAD had strong antimicrobial activity against E. coli and Staphylococcus aureus.     

Influence of elastin-like peptide fusions on the quantity and quality of a tobacco-derived human immunodeficiency virus-neutralizing antibody

The use of vaginal microbicides containing human immunodeficiency virus (HIV)-neutralizing antibodies (nAbs) is a promising strategy to prevent HIV-1 infection. Although antibodies are predominantly manufactured using mammalian cells, elastin-like peptide (ELP) fusion technology improves the stability of recombinant, plant-produced proteins and facilitates their purification, making plants an alternative platform for antibody production. We generated transgenic tobacco plants accumulating four different formats of the anti-HIV-1 antibody 2G12 in the endoplasmic reticulum (ER), i.e. with ELP on either the light or heavy chain, on both, or on neither. Detailed analysis of affinity-purified antibodies by surface plasmon resonance spectroscopy showed that the kinetic binding parameters of all formats were identical to 2G12 lacking ELP produced in Chinese hamster ovary (CHO) cells. Importantly, protein purification from seeds by inverse transition cycling (ITC) did not affect the binding kinetics. Analysis of heavy chain N-glycans from leaf-derived antibodies showed that retrieval to the ER was efficient for all formats. In seeds, however, N-glycans on the naked antibody were extensively trimmed compared with those on the ELP fusion formats, and were localized to a different subcellular compartment. The in vitro HIV-neutralization properties of the tobacco-derived 2G12 were equivalent to or better than those of the CHO counterpart.     

Expression and purification of moricin CM4 and human β-defensins 4 in Escherichia coli using a new technology

Different strategies have been developed to produce small antimicrobial peptides using recombinant techniques. Here we report a new technology of biosynthesis of moricin CM4 and human β-defensins 4 (HβD4) in the Escherichia coli. The CM4 and HβD4 gene were cloned into a vector containing the tags elastin-like peptide (ELP) and intein to construct the expression vector pET-EI-CM4 and pET-EI-HβD4. All the peptides, expressed as soluble fusions, were isolated from the protein debris by the method called inverse transition cycling (ITC) rather than traditional immobilized metal affinity chromatography (IMAC) and separated from the fusion leader by self-cleavage. Fully reduced peptides that were purified exhibited expected antimicrobial activity. The approach described here is a low-cost, convenient and potential way for generating small antimicrobial peptide.     

Purification of an elastin-like fusion protein by microfiltration

This article describes a simple and potentially scalable microfiltration method for purification of recombinant proteins. This method is based on the fact that when an elastin-like polypeptide (ELP) is fused to a target protein, the inverse phase transition behavior of the ELP tag is imparted to the fusion protein. Triggering the phase transition of a solution of the ELP fusion protein by an increase in temperature, or isothermally by an increase in salt concentration, results in the formation of micron-sized aggregates of the ELP fusion protein. In this article, it is shown that these aggregates are efficiently retained by a microfiltration membrane, while contaminating E. coli proteins passed through the membrane upon washing. Upon reversing the phase transition by flow of Milli-Q water, soluble, pure, and functionally active protein is eluted from the membrane. Proof-of principle of this approach was demonstrated by purifying a fusion of thioredoxin with ELP (Trx-ELP) with greater than 95% recovery of protein and with greater than 95% purity (as estimated from SDS-PAGE gels). The simplicity of this method is demonstrated for laboratory scale purification by purifying Trx-ELP from cell lysate using a syringe and a disposable microfiltration cartridge. The potential scalability of this purification as an automated, continuous industrial-scale process is also demonstrated using a continuous stirred cell equipped with a microfiltration membrane.     

Isoelectric point (pI)-based phase separation (pI-BPS) purification of elastin-like polypeptides (ELPs) containing charged,biologically active fusion proteins (ELP-FPs)

Elastin-like polypeptides (ELPs) are peptide-based biomaterials with residue sequence (VPGXG)n where X is any residue except proline. ELPs are a useful modality for delivering biologically active proteins (growth factors, protease inhibitors, anti-inflammatory peptides, etc.) as fusion proteins (ELP-FP). ELP-FPs are particularly cost-effective because they can be rapidly purified using Inverse Temperature Cycling (ITC) via the reversible formation and precipitation of entropically driven aggregates above a transition temperature (T_t). When ELP fusion proteins (ELP-FPs) contain significant charge density at physiological pH, electrostatic repulsion between them severely inhibits aggregate formation. The literature does not currently describe methods for purifying ELP-FPs containing charged proteins on either side of the ELP sequence as fusion partners without organic solvents. Here, the isoelectric point (pI) of ELP-FPs is discussed as a means of neutralizing surface charges on ELP-FPs and increasing ITC yield to dramatically high levels. We use pI-based phase separation (pI-BPS) to purify ELP-FPs containing cationic and anionic fusion proteins. We report a dramatic increase in protein yield when using pI-BPS for purification of ELP-FPs. Proteins purified by this method also retain the functional activity of the protein present in the ELP-FP. Techniques developed here enable significant diversification of possible fusion proteins delivered by ELPs as ELP-FPs by allowing them to be produced and purified at higher quantities and yields.     

Effect of detergents on the thermal behavior of elastin‐like polypeptides

Elastin‐like polypeptide (ELP) fusions have been designed to allow large‐scale, nonchromatographic purification of many soluble proteins by using the inverse transition cycling (ITC) method; however, the sensitivity of the aqueous lower critical solubility phase transition temperature (T_t) of ELPs to the addition of cosolutes, including detergents, may be a potential hindrance in purification of proteins with surface hydrophobicity in such a manner. To identify detergents that are known to solubilize such proteins (e.g., membrane proteins) and that have little effect on the T_t of the ELP, we screened a number of detergents with respect to their effects on the T_t and secondary structures of a model ELP (denoted here as ELP180). We found that mild detergents (e.g., n‐dodecyl‐β‐D ‐maltoside, Triton‐X100, and 3‐[(3‐cholamidopropyl) dimethylamino]‐1‐propanesulfonate) do not alter the phase transition behavior or structure (as probed by circular dichroism) of ELP180. This result is in contrast to previous studies that showed a strong effect of other detergents (e.g., sodium dodecylsulfate) on the T_t of ELPs. Our results clearly indicate that mild detergents do not preclude ITC‐based separation of ELPs, and thus that ELP fusions may prove to be useful in the purification of detergent‐solubilized recombinant hydrophobic proteins, including membrane proteins, which are otherwise notoriously difficult to extract and purify by conventional separation methods (e.g., chromatography). © 2012 Wiley Periodicals, Inc.     

Improved non-chromatographic purification of a recombinant protein by cationic elastin-like polypeptides

This paper reports an improvement in the purification of thioredoxin (Trx) expressed from E. coli by inverse transition cycling (ITC) using cationic elastin-like polypeptides (ELPs). Two ELP libraries having 2% and 5% lysine residues and molecular weights ranging from 4 to 61.1 kDa showed greater salt sensitivity in their inverse transition behavior than purely aliphatic ELPs. Expression yield of Trx-ELP fusions was an unpredictable function of guest residue composition, but reducing the molecular weight of the ELP tag generally increased Trx yield. A cationic 4.3 kDa ELP is the shortest ELP used to purify any protein by ITC to date. A 15.9 kDa ELP with a guest residue composition of K:V:F of 1:7:1 was found to be the optimal cationic tag to purify Trx, as it provided 50% greater Trx yield and only required one-fifth the added NaCl for purification of Trx as compared to previously used aliphatic ELP tags.     

Elastin‐like‐polypeptide based fusion proteins for osteogenic factor delivery in bone healing

Modern treatments of bone injuries and diseases are becoming increasingly dependent on the usage of growth factors to stimulate bone growth. Bone morphogenetic protein‐2 (BMP‐2), a potent osteogenic inductive protein, exhibits promising results in treatment models, but recently has had its practical efficacy questioned due to the lack of local retention, ectopic bone formation, and potentially lethal inflammation. Where a new delivery technique of the BMP‐2 is necessary, here we demonstrate the viability of an elastin‐like peptide (ELP) fusion protein containing BMP‐2 for delivery of the BMP‐2. This fusion protein retains the performance characteristics of both the BMP‐2 and ELP. The fusion protein was found to induce osteogenic differentiation of mesenchymal stem cells as evidenced by the production of alkaline phosphatase and extracellular calcium deposits in response to treatment by the fusion protein. Retention of the ELPs inverse phase transition property has allowed for expression of the fusion protein within a bacterial host (such as Escherichia coli) and easy and rapid purification using inverse transition cycling. The fusion protein formed self‐aggregating nanoparticles at human‐body temperature. The data collected suggests the viability of these fusion protein nanoparticles as a dosage‐efficient and location‐precise noncytotoxic delivery vehicle for BMP‐2 in bone treatment. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:1029–1037, 2016     

Cell-based analysis of Chikungunya virus E1 protein in membrane fusion

Background

Chikungunya fever is a pandemic disease caused by the mosquito-borne Chikungunya virus (CHIKV). E1 glycoprotein mediation of viral membrane fusion during CHIKV infection is a crucial step in the release of viral genome into the host cytoplasm for replication. How the E1 structure determines membrane fusion and whether other CHIKV structural proteins participate in E1 fusion activity remain largely unexplored.

Methods

A bicistronic baculovirus expression system to produce recombinant baculoviruses for cell-based assay was used. Sf21 insect cells infected by recombinant baculoviruses bearing wild type or single-amino-acid substitution of CHIKV E1 and EGFP (enhanced green fluorescence protein) were employed to investigate the roles of four E1 amino acid residues (G91, V178, A226, and H230) in membrane fusion activity.

Results

Western blot analysis revealed that the E1 expression level and surface features in wild type and mutant substituted cells were similar. However, cell fusion assay found that those cells infected by CHIKV E1-H230A mutant baculovirus showed little fusion activity, and those bearing CHIKV E1-G91D mutant completely lost the ability to induce cell-cell fusion. Cells infected by recombinant baculoviruses of CHIKV E1-A226V and E1-V178A mutants exhibited the same membrane fusion capability as wild type. Although the E1 expression level of cells bearing monomeric-E1-based constructs (expressing E1 only) was greater than that of cells bearing 26S-based constructs (expressing all structural proteins), the sizes of syncytial cells induced by infection of baculoviruses containing 26S-based constructs were larger than those from infections having monomeric-E1 constructs, suggesting that other viral structure proteins participate or regulate E1 fusion activity. Furthermore, membrane fusion in cells infected by baculovirus bearing the A226V mutation constructs exhibited increased cholesterol-dependences and lower pH thresholds. Cells bearing the V178A mutation exhibited a slight decrease in cholesterol-dependence and a higher-pH threshold for fusion.

Conclusions

Cells expressing amino acid substitutions of conserved protein E1 residues of E1-G91 and E1-H230 lost most of the CHIKV E1-mediated membrane fusion activity. Cells expressing mutations of less-conserved amino acids, E1-V178A and E1-A226V, retained membrane fusion activity to levels similar to those expressing wild type E1, but their fusion properties of pH threshold and cholesterol dependence were slightly altered.     

Protein purification by fusion with an environmentally responsive elastin-like polypeptide: effect of polypeptide length on the purification of thioredoxin

Elastin-like polypeptides (ELPs) undergo a reversible, soluble-to-insoluble phase transition in aqueous solution upon heating through a characteristic transition temperature (T(t)). Incorporating a terminal ELP expression tag into the gene of a protein of interest allows ELP fusion proteins to be purified from cell lysate by cycles of environmentally triggered aggregation, separation from solution by centrifugation, and resolubilization in buffer. In this study, we examine the effect of ELP length on the expression and purification of a thioredoxin-ELP fusion protein and show that reducing the size of the ELP tag from 36 to 9 kDa increases the expression yield of thioredoxin by 4-fold, to a level comparable to that of free thioredoxin expressed without an ELP tag, while still allowing efficient purification. However, truncation of the ELP tag also results in a more complex transition behavior than is observed with larger tags. For both the 36 kDa and the 9 kDa ELP tag fused to thioredoxin, dynamic light scattering showed that large aggregates with hydrodynamic radii of approximately 2 microm form as the temperature is raised to above the T(t). These aggregates persist at all temperatures above the T(t) for the thioredoxin fusion with the 36 kDa ELP tag. With the 9 kDa tag, however, smaller particles with hydrodynamic radii of approximately 12 nm begin to form at the expense of the larger, micron-size aggregates as the temperature is further raised above the T(t). Because only large aggregates can be effectively retrieved by centrifugation, efficient purification of fusion proteins with short ELP tags requires selection of solution conditions that favor the formation of the micron-size aggregates. Despite this additional complexity, our results show that the ELP tag can be successfully truncated to enhance the yield of a target protein without compromising its purification.     

以类弹性蛋白多肽为标签的表达质粒构建及其用于木聚糖酶的非色谱纯化

【目的】旨在构建一个能以非色谱纯化目标蛋白的表达质粒,使用自行设计的类弹性蛋白多肽(ELPs)作为非色谱纯化标签,以纯化目标蛋白。该ELPs长度短,对盐非常敏感。【方法】从头设计了木聚糖酶,将其通过一段无规则卷曲同ELPs相连,合成了编码上述序列的基因,并构建重组表达载体pET-22b-SoxB-M2-S-ELP,转化至大肠杆菌BLR(DE3)中诱导表达,采用可逆相变循环经高速离心纯化木聚糖酶,并考察纯酶的酶学性质。【结果】成功构建了表达载体并表达,在pH=7.0时0.5 mol/L碳酸钠可使ELPs的相变温度降至22℃。在上述条件下,对木聚糖酶进行了非色谱纯化,其纯化倍数为3.2,回收率为21.2%,纯度为64.3%。经测定,未连接ELPs的酶、粗酶及纯化酶学性质基本一致,其最适温度为60℃,最适pH为6.0,最适反应时间为30 min,粗酶70℃保温1 h相对酶活仍有50%,为嗜热木聚糖酶,与预期相符。【结论】ELPs作为非色谱纯化标签纯化重组木聚糖酶具有操作简单、易于放大、成本较低的优势,故所构建的重组质粒可望通用于分离多种重组蛋白,具有较广泛的用途。     

Purification of recombinant proteins by fusion with thermally-responsive polypeptides.

Elastin-like polypeptides (ELPs) undergo a reversible, inverse phase transition. Below their transition temperature (Tt), ELPs are soluble in water, but when the temperature is raised above Tt, phase transition occurs, leading to aggregation of the polypeptide. We demonstrate a method for purification of soluble fusion proteins incorporating an ELP tag. Advantages of this method, termed "inverse transition cycling," include technical simplicity, low cost, ease of scale-up, and capacity for multiplexing. More broadly, the ability to environmentally modulate the physicochemical properties of recombinant proteins by fusion with ELPs will allow diverse applications in bioseparation, immunoassays, biocatalysis, and drug delivery.     

Biochemical and functional characterization of anti-HIV antibody-ELP fusion proteins from transgenic plants

The stability and recovery of recombinant proteins expressed in plants are improved by fusion to elastin-like peptides (ELPs). In order to test the suitability of ELP for the production of pharmaceutical proteins, transgenic plants were created that individually expressed the light and heavy chains of the broadly neutralizing anti-human immunodeficiency virus type 1 (anti-HIV-1) monoclonal antibody 2F5, which is being evaluated as a microbicide component. The antibody chains were expressed both with and without a C-terminal ELP fusion. Crossing these plants in all combinations resulted in transgenic lines producing the full antibody in four formats, with ELP on either the light or heavy chains, on both or on neither. Characterization of the affinity-purified antibodies by surface plasmon resonance spectroscopy showed that the kinetic binding parameters were identical to those of a Chinese hamster ovary (CHO) cell counterpart lacking ELP. N -Glycan analysis showed that all four derivatives contained predominantly oligo-mannose-type N -glycans and that the ELP fusions had no significant effect on N -glycan structure. It was concluded that ELP fusion to the light chain, heavy chain or both chains of a plant-derived antibody had no adverse affects on protein quality, but had a positive impact on the yield. ELP fusions do not interfere with folding, assembly, trafficking in the secretory pathway or post-translational modification, but enhance stability whilst at the same time simplifying recovery.     

Expression and one-step purification of a β-galactosidase by fusion with elastin-like polypetides

Thermally triggered reversible phase transition of elastin-like polypeptide (ELP) allows for a simple, economical and scalable procedure of protein purification. This technique is especially useful for purifying salt-requiring enzymes such as halophilic enzymes which require high salt concentration to keep natural structure and activity. In this study, a highly hydrophilic/acidic β-galactosidase cloned from halotolerant Planococcus sp.L4 was used as a target protein to apply ELP tags for purification. A high-level expression of β-galactosidase tagged with 80 repeats of Val-Pro-Gly-Val-Gly pentapeptide (galactosidase-ELP[V₅-80]) was achieved in Escherichia coli BLR(DE3) at 21 °C for 24 h, accounting for around 50% of the total protein. The enzyme activity of the fusion by optimized protocol should be reached as much as 3 folds of that by rapid IPTG-induction, implying that measures to avoid possible errors during protein expression can be helpful for keeping bioactivities. The optimal condition for precipitating ELP-tagged protein was performed with a simple, rapid and sensitive method by examining the activity of supernatant after the first-round hot spin. The fusion protein aggregated effectively at 37 °C with 1.5 M ammonium sulfate and yielded highly pure protein with a recovery higher than 90% by one cycle. These results suggested that inverse transition cycling (ITC) process provides a potential for the large-scale purification of halophilic β-galactosidase.     

节杆菌乙内酰脲水解酶与GST蛋白融合表达及纯化

目的：构建节杆菌BT801乙内酰脲水解酶（HyuH）与GST融合表达载体,利用大肠杆菌表达GST-HyuH融合蛋白并纯化。方法：将节杆菌HyuH基因插入载体pGEX-KG构建重组表达质粒pGEX-KG-HyuH;SDS-PAGE检查GST-HyuH的表达;利用薄层层析检查融合蛋白的HyuH活性;最后利用谷胱甘肽-Sepharose 4B树脂纯化融合蛋白GST-HyuH。结果：SDS-PAGE表明重组菌在相对分子质量77×103处有特异的蛋白表达条带,且重组菌可以水解5-苯基乙内酰脲,纯化得到了有HyuH活性的纯度较高的GST-HyuH融合蛋白。结论：得到了有HyuH活性的GST-HyuH,为进一步研究HyuH的修饰奠定了基础。     

Thermally triggered purification and immobilization of elastin-OPH fusions

A bifunctional fusion protein consisting of organophosphorus hydrolase (OPH) and elastin-like polypeptide (ELP) was synthesized for the detoxification of organophosphorus compounds. ELPs undergo a reversible phase transition upon an increase in temperature, forming hydrophobic aggregates. This thermally triggered property of phase transition allows for a simple and rapid means of purifying the fusion protein. Over 1,300-fold purification was achieved after only 2 cycles of inverse phase transition. The purified fusion protein showed identical kinetic properties as the native OPH with only a modest 10% increase in K(m) and a 5% decrease of K(cat). The ability of the ELP domain to form collapsed aggregates also improved long-term stability of the fusion enzyme. Aggregated ELP-OPH retained nearly 100% activity over a span of three weeks. In addition to facilitating purification and stability, the ELP moiety served as a hydrophobic tag for one-step immobilization of the fusion protein onto hydrophobic surfaces. The ELP-OPH was capable of rapidly degrading paraoxon while immobilized. The protein also retained ELP functionality of reversible phase transition thereby allowing for the regeneration of the treated surface. This technology offers a swift and convenient means for purification, immobilization, and regeneration of OPH onto a variety of hydrophobic surfaces by simple environmental triggers.