1.Fusion tags technology and their applications.
Yong-Jin LI ; Yuan-Yuan CHEN ; Li-Jun BI
Chinese Journal of Biotechnology 2006;22(4):523-527
Fusion tags are originally developed to facilitate the purification of recombinant protein from crude extracts. In recent years, the discovery of different tags and the development of fusion strategy make the function of fusion tags diversified. However, there was no a cure-all fusion tag for different applications. We here give an overview of fusion tag technology and the different applications of fusion tags, including the purification, detection and oriented immobilization of recombinant protein, the visualization of bioevent in vivo, the enhancement of the yield of protein, the improvement of the solubility and stability of the expressed protein.
Recombinant Proteins
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chemistry
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isolation & purification
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Solubility
2.Purification of glutathione-S-transferase fusion protein by glutathione coupled magnetic particles.
Jingjing ZHU ; Liu YANG ; Lei YANG ; Chao CHEN ; Yali CUI
Chinese Journal of Biotechnology 2009;25(8):1254-1260
We established a purification system for glutathione-S-transferase (GST) fusion protein using glutathione coupled magnetic particle. Glutathione was coupled covalently to the surface of magnetic particles with isothiocyanate functional groups. Cell lysate, containing the fusion protein, was then incubated with these glutathione coupled magnetic particles at room temperature. Unbound and non-specifically bound proteins were removed by wash steps. Subsequently, the GST-fusion protein was eluted from the magnetic particles by the addition of reduced glutathione. The resulting fusion protein was tested for purity using SDS-PAGE and demonstrated by Western blotting. The concentration of the fusion protein was measured by Bradford method. Both the conditions for incubation and washing were optimized. The results showed that 150 microg glutathione could be bound on 1 mg of particle surface and 10 mg of the glutatione-coupled magnetic particles was suitable for 100 microL lysate, the optimal incubation time for reaction between particles and lysate was 40 min. The magnetic particles could help purify efficiently GST-fusion protein with a yield of around 516 microg fusion protein per 10 mg particles. Magnetic particles can be successfully used in a simple, rapid and reliable method for the purification of GST-fusion proteins.
Glutathione
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chemistry
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Glutathione Transferase
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chemistry
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isolation & purification
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Magnetite Nanoparticles
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chemistry
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Protein Binding
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Recombinant Fusion Proteins
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chemistry
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isolation & purification
3.Expression and characterization of protein disulfide isomerase-related protein A.
Hai-Ping ZHOU ; Cui-Juan JIA ; Yu-Ying ZHANG
Chinese Journal of Biotechnology 2004;20(4):595-600
Protein disulfide isomerase-related protein A (PRPA) was highly expressed (about 34%) in Escherichia coli by inserting the whole PRPA cDNA into the vector pET23b. After expression, the purified protein was acquired through ammonium fractional precipitation and Bio-Rex 70 chromatography. PRPA shows low disulfide isomerase activity (only about 1/250 of that of hPDI), decreases the reactivation yield of denatured and reduced lysozyme either in redox and non-redox Hepes buffer or redox PBS buffer and facilitates the aggregation of denatured and reduced lysozyme. Fluorescence spectra of PRPA indicate that PRPA has more hydrophobic groups at surface than that of hPDI, and which can be used to explain why PRPA has anti-chaperone activity during the refolding of denatured and reduced lysozyme.
Cloning, Molecular
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Fungal Proteins
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chemistry
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genetics
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isolation & purification
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Muramidase
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chemistry
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Plasmids
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Protein Folding
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Recombinant Proteins
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biosynthesis
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isolation & purification
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Spectrometry, Fluorescence
4.Study on rhG-CSF modified with polyethylene glycol.
Lin-Lin ZHANG ; Chun-Yang ZHENG ; Jian-Du LEI ; Guang-Hui MA ; Zhi-Guo SU ; Li WANG
Chinese Journal of Biotechnology 2005;21(6):965-969
Monomethoxy Polyethylene Glycol(mPEG20000) was activated by N-hydroxysuccinimede and analyzed by infrared spectrum and hydrolysis kinetics. In order to propose the optimized reaction conditions of mono-PEGylated rhG-CSF, orthogonal design of the experiment was investigated. Ion exchange chromatography was used to separate and purify PEGylated rhG-CSF from unPEGylated rhG-CSF. The purity of mono-PEGylated rhG-CSF was analyzed by high performance liquid chromatography (HPLC) to be 97%.
Granulocyte Colony-Stimulating Factor
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chemistry
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isolation & purification
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Humans
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Polyethylene Glycols
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chemistry
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Recombinant Proteins
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chemistry
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isolation & purification
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Surface Properties
5.Refolding and purification of the huGM-CSF(9-127)-IL-6(29-184) fusion protein.
Qiang-Ming SUN ; Hong-Yan LIU ; Chang-Bai DAI ; Yan-Bing MA ; Mao-Sheng SUN ; Wei-Ming XU
Chinese Journal of Biotechnology 2002;18(3):291-294
The huGM-CSF(9-127)-IL-6(29-184) fusion protein was precipitated on column when being purified by Q Sepharose H.P. ion exchange chromatography after renaturation by dilution. To solve this problem, a novel purification and refolding strategy was adopted. Inclusion bodies was first purified by Q Sepharose H.P. ion exchange in 8 mol/L urea, followed by in situ refolding on column by Sephacryl S-200. Renatured fusion protein was obtained in a purity of more than 95%. It was showed that the method of refolding on gel filtration column is efficient, with relative refolding rate at 80%. By the whole procedure, refolding and purification of recombinant protein can be performed within one day. This strategy is also promising to be applied in large scale purification and refolding of recombinant protein from inclusion bodies in E. coli.
Granulocyte-Macrophage Colony-Stimulating Factor
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chemistry
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isolation & purification
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Interleukin-6
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chemistry
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isolation & purification
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Peptide Fragments
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chemistry
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isolation & purification
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Protein Folding
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Recombinant Fusion Proteins
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chemistry
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isolation & purification
6.Refolding of the fusion protein of recombinant enterokinase light chain rEKL.
Chinese Journal of Biotechnology 2006;22(5):811-815
The fusion protein of enterokinase light chain, DsbA-rEKL, was expressed mainly in inclusion body in E. coli. The recombinant bacteria was fermented to high density, with high expression of the fusion protein. After being washed with 0.5% Triton X-100 and 4mol/L urea, the inclusion body was dissolved in 6mol/L guanidine and 100mmol/L DTP, derivatized by cystine and refolded by pulse refolding. The strategy of pulse refolding involved the addition of 0.03mg/mL of fusion protein until its final concentration reached 0.3mg/mL. The refolded protein was autocleaved and the active EKL molecule was released after adding 2mmol/L CaCl2. Using the two-step purification processes of IDA-Sepharose chromatography and Q-Sepharose chromatography, the purity of rEKL was found to be above 95%, with a high activity to cleave the recombinant reteplase fusion protein Trx-rPA. The yield of purified rEKL was more than 60mg/L of cultures. As a result, the therapeutic proteins like rPA could be produced on a large-scale in a way such as expressed in the form of fusion proteins.
Enteropeptidase
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chemistry
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Escherichia coli
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genetics
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Protein Folding
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Recombinant Fusion Proteins
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chemistry
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isolation & purification
7.Separation and purification of PEGylated rhG-CSF by two-step ion-exchange chromatography.
Ting CHEN ; Qiang YUN ; Jing-Xiu BI ; Guang-Hui MA ; Zhi-Guo SU
Chinese Journal of Biotechnology 2005;21(2):284-288
In order to separate and purify the PEGylated recombinant human granulocyte stimulating factor (rhG-CSF) at large laboratory-scale level, a two-step ion-exchange chromatographic separation procedure was designed. Cation-exchange chromatography was applied first to separate PEGylated rhG-CSF from un-reacted rhG-CSF, followed by anion-exchange chromatography to dissolve individual PEG-rhG-CSF species (mono-, di- and tri-PEGylated rhG-CSF) and remove the free PEG. The molecular weight of individual PEGylated rhG-CSF was determined by MALDI-TOF and SDS-PAGE. MALDI-TOF mass spectrometry revealed that the molecular weights of mono-, di- and tri-PEGylated rhG-CSF are 23.8 kD, 28.6kD and 33.8kD, respectively. Cell proliferation activity was detected by MTT assay using NFS-60 cell. The in vitro residual bioactivity of mono-, di- and tri-PEGylated rhG-CSF were 90%, 75% and 43% respectively, comparing with the un-conjugated rhG-CSF. These results indicated that the un-conjugated rhG-CSF and excess free PEG can be removed completely and the three conjugate species can be purified into homogeneity by the two consecutive ion-exchange chromatographic steps. The purification procedure is easy to scale-up, high in performance and recovery.
Chromatography, Ion Exchange
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methods
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Granulocyte Colony-Stimulating Factor
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biosynthesis
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chemistry
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isolation & purification
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Humans
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Polyethylene Glycols
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chemistry
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isolation & purification
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Recombinant Proteins
8.Quantitative specific detection of Staphylococcus aureus based on recombinant lysostaphin and ATP bioluminescence.
Yuyuan LI ; Zhiqiang MI ; Xiaoping AN ; Yusen ZHOU ; Yigang TONG
Chinese Journal of Biotechnology 2014;30(8):1283-1290
Quantitative specific detection of Staphylococcus aureus is based on recombinant lysostaphin and ATP bioluminescence. To produce recombinant lysostaphin, the lysostaphin gene was chemically synthesized and inserted it into prokaryotic expression vector pQE30, and the resulting expression plasmid pQE30-Lys was transformed into E. coli M15 for expressing lysostaphin with IPTG induction. The recombinant protein was purified by Ni(2+)-NTA affinity chromatography. Staphylococcus aureus was detected by the recombinant lysostaphin with ATP bioluminescence, and plate count method. The results of the two methods were compared. The recombinant lysostaphin was successfully expressed, and a method of quantitative specific detection of S. aureus has been established, which showed a significant linear correlation with the colony counting. The detection method developed has good perspective to quantify S. aureus.
Adenosine Triphosphate
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chemistry
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Chromatography, Affinity
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Escherichia coli
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Luminescent Measurements
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methods
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Lysostaphin
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chemistry
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Recombinant Proteins
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chemistry
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Staphylococcus aureus
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isolation & purification
9.Preparation of metal chelate affinity chromatographic medium and its application in the purification of 6 x histidine-tagged protein.
Shu-Juan LI ; Yong-Liang SUN ; Dao-Dao HU ; Chao CHEN ; Ya-Li CUI
Chinese Journal of Biotechnology 2007;23(5):941-946
Using Sepharose CL-6B as support, 3-Chloro-1, 2-epoxypropane as activated agent, carboxymethylated aspartate (CM-Asp) as chelating ligand, A chelate affinity chromatographic medium based on Co2+, named Co-CM-Asp-Sepharose, was prepared and used to purify 6 x His-tagged fusion proteins. The amount of Co-CM-Asp-Sepharose reacted with 200 microL of lysate, the incubation time, wash condition and the imidazole concentration in the elution buffer were optimized. The purification results using Co-CM-Asp-Sepharose and Ni-NTA-Agarose (product of Qiagen) were compared. The CD155D1 fusion protein was also purified from 5mL of lysate and the amount of protein was determined by Bradford method. The results show that 60 microL of Co-CM-Asp-Sepharose (50% suspension) was suitable for the protein purification from 200 microL of lysate, the optimal incubation time of medium and lysate was 30 min, the optimal imidazole concentration in the eluting buffer was 200 mmol/L, and 200 microg of fusion protein was obtained. In a big scale experiment, 4.6 mg of fusion protein was obtained from 5 mL of lysate using 1.5 mL of Co-CM-Asp-Sepharose (50% suspension). Compared with Ni-NTA-Agarose, the Co-CM-Asp-Sepharose medium exhibits higher selectivity and the protein possesses higher purity.
Aspartic Acid
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chemistry
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Chelating Agents
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chemistry
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Chromatography, Affinity
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methods
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Epoxy Compounds
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chemistry
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Histidine
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biosynthesis
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chemistry
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genetics
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Polymers
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chemistry
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Recombinant Fusion Proteins
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isolation & purification
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Sepharose
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chemistry
10.The renaturation and purification of RGD-staphylokinase by gel filtration.
Ao CHENG ; Gang SONG ; Hua-Bo SU ; Min YU ; Yu-Yang LI ; Hou-Yan SONG
Chinese Journal of Biotechnology 2002;18(6):693-697
A recombinant RGD-Staphylokinase(RGD-Sak) with thrombolytic and anti-thrombolytic bifunction was expressed in E. coli. The expression product accumulates as inclusion bodies. In order to obtain active molecule, the RGD-Sak in the inclusion body should be denatured and then renatured. The renaturation of RGD-Sak was performed by gel filtration. Comparing with the traditional way of dilution renaturation, gel filtration way is better than the traditional one, since there are some advantages, such as simple processing, high recovery, low cost and higher purity after renaturation, After renaturation, RGD-Sak was purified by Q-Sepharose FF, and the purity was more than 95%. Analysis of CD spectra showed that the final product from the two renaturation ways have similar CD spectra. It was demonstrated that RGD-Sak molecules proceeded correct refolding through gel filtration or dilution renaturation process.
Chromatography, Gel
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Circular Dichroism
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Metalloendopeptidases
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chemistry
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isolation & purification
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Oligopeptides
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isolation & purification
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Protein Folding
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Protein Renaturation
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Recombinant Fusion Proteins
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chemistry
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isolation & purification