Your search keyword '"Recombinant Protein Purification"' showing total 6 results

1. Scalable dual column cation exchange affinity chromatography based platform process for recombinant protein purification.

Author

Prabhala, Sai Vivek and Wood, David W.

Subjects

*RECOMBINANT proteins, *AFFINITY chromatography, *GREEN fluorescent protein, *HEPARIN, *ION exchange resins, *ESCHERICHIA coli, *GALACTOSIDASES

Abstract

A novel tandem affinity tag is presented that enables the use of cation exchange resins for initial affinity purification, followed by an additional column step for enhanced purity and affinity tag self-removal. In this method, the highly charged heparin-binding tag binds strongly and selectively to either a strong or weak cation exchange resin based on electrostatic interactions, effectively acting as an initial affinity tag. Combining the heparin-binding tag (HB-tag) with the self-removing i CapTag™ provides a means for removing both tags in a subsequent self-cleaving step. The result is a convenient platform for the purification of diverse tagless proteins with a range of isoelectric points and molecular weights. In this work, we demonstrate a dual column process in which the tagged protein of interest is first captured from an E. coli cell lysate using a cation exchange column via a fused heparin-binding affinity tag. The partially purified protein is then diluted and loaded onto an i CapTag™ split-intein column, washed, and then incubated overnight to release the tagless target protein from the bound tag. Case studies are provided for enhanced green fluorescent protein (eGFP), beta galactosidase (βgal), maltose binding protein (MBP) and beta lactamase (βlac), where overall purity and host cell DNA clearance is provided. Overall, the proposed dual column process is shown to be a scalable platform technology capable of accessing both the high dynamic binding capacity of ion exchange resins and the high selectivity of affinity tags for the purification of recombinant proteins. • Target proteins were expressed in fusion with the highly charged HB-tag and the self-removing i CapTag™. • The resulting platform process required mild pH conditions and resulted in highly pure tagless bioactive products. • The process was designed to be efficient with multiple buffers being used for different purposes. [ABSTRACT FROM AUTHOR]

Published

2024

2. High-level production of keratinocyte growth factor 2 in Escherichia coli.

Author

Kim, Young Su, Lee, Hye-Jeong, Handoko, Gabriella Aphrodita, Kim, Jaehui, Won, Minho, Park, Jung-Ho, and Ahn, Jungoh

Subjects

*KERATINOCYTE growth factors, *ESCHERICHIA coli, *PROTHROMBIN, *ION exchange chromatography, *AFFINITY chromatography

Abstract

Recombinant human keratinocyte growth factor 2 (KGF-2), also known as repifermin, is used in various therapeutic applications. However, KGF-2 production has not been optimized for facilitating large-scale production. Therefore, we attempted to attain high-level production of bioactive KGF-2. KGF-2 was fused with 6HFh8 (6HFh8-KGF-2) at the tobacco etch virus protease cleavage site. The 6HFh8-KGF-2 was expressed in Escherichia coli with high expression levels of approximately 33% and 20% of soluble protein in flask culture and 5 L fermentation, respectively. 6HFh8-KGF-2 was purified via nickel affinity chromatography. To maintain a stable form of KGF-2, the conditions of the cleavage reaction were optimized based on the isoelectric point. KGF-2 was purified via ion-exchange chromatography to high purity (>99%) with an optimal purification yield (91%). Circular dichroism spectroscopy demonstrated that purified KGF-2 had a secondary structure and thermal stability similar to that of commercial KGF-2. Bioactivity assays indicated that purified KGF-2 could induce MCF-7 cell proliferation in the same manner as commercial KGF-2. These results demonstrate that bioactive KGF-2 was overexpressed in E. coli and purified to high quality. Our findings indicated that bioactive KGF-2 can be produced in large quantities in E. coli. • Keratinocyte growth factor 2 was fused with 6HFh8 to increase production yield. • Purification involved Ni-NTA and IEX chromatography with TEV protease treatment. • KGF-2 was purified to high purity (>99%) and yield (90%). • Purified KGF-2 showed the same bioactivities as those of commercial KGF-2. • 6HFh8-KGF-2 can be used for facilitating large-scale KGF-2 production. [ABSTRACT FROM AUTHOR]

Published

2023

3. Ubiquitin-intein and SUMO2-intein fusion systems for enhanced protein production and purification

Author

Wang, Zhongyuan, Li, Na, Wang, Yanyan, Wu, Yanping, Mu, Tianyang, Zheng, Yi, Huang, Laiqiang, and Fang, Xuexun

Subjects

*PROTEIN synthesis, *PROTEIN fractionation, *UBIQUITIN, *ESCHERICHIA coli, *GENE expression, *CHROMATOGRAPHIC analysis

Abstract

Abstract: Although most commonly used for protein production, expression of soluble and functional recombinant protein in Escherichia coli is still a major challenge. The development and application of fusion tags that can facilitate protein expression and solubility partly solve this problem, however, under most circumstance, the fusion tags have to be removed by proteases in order to use the proteins. Because the tag removal using proteases increases cost and introduces extra purification steps, it remains a significant problem that must be resolved before being widely used in industry production. Ubiquitin and SUMO have been successfully used to enhance protein expression and solubility. In the last decades, intein has also been widely used in protein production for its self-cleavage property, which could help to remove the fusion tag without any protease. Here, we take the advantages of ubiquitin, SUMO2 and intein in protein expression. We constructed tandem ubiquitin-intein and SUMO2-intein fusion tags, and chose human MMP13 (amino acid 104–274) and eGFP as the passenger proteins that fused to the C-terminus of the tags. These constructs were expressed in E. coli and both MMP13 and eGFP expression and solubility were evaluated. Both tags showed the ability to enhance the solubility of MMP13 and eGFP and improve the expression of eGFP, and the SUMO2-intein having a more significant effect. Both ubiquitin-intein-eGFP and SUMO2-intein-eGFP were purified using Ni–NTA column chromatography and self-cleavaged by changing pH. The recombinant un-tagged eGFP were released and eluted with high homogeneity. In summary, ubiquitin-intein and SUMO2-intein are convenient and useful fusion tags that can enhance the expression, solubility and improve the purification process of the model heterologous protein and these tags may have a good prospect in protein production. [Copyright &y& Elsevier]

Published

2012

4. Intein-mediated one-step purification of Escherichia coli secreted human antibody fragments

Author

Wu, Wan-Yi, Miller, Keith D., Coolbaugh, Michael, and Wood, David W.

Subjects

*ESCHERICHIA coli, *IMMUNOGLOBULINS, *CHITIN, *PROTEIN fractionation, *RECOMBINANT proteins, *CARRIER proteins, *BETA lactamases, *MALTOSE

Abstract

Abstract: In this work, we apply self-cleaving affinity tag technology to several target proteins secreted into the Escherichia coli periplasm, including two with disulfide bonds. The target proteins were genetically fused to a self-cleaving chitin-binding domain–intein tag for purification via a chitin–agarose affinity resin. By attaching the intein-tagged fusion genes to the PelB secretion leader sequence, the tagged target proteins were secreted to the periplasmic space and could be recovered in active form by simple osmotic shock. After chitin-affinity purification, the target proteins were released from the chitin-binding domain tag via intein self-cleaving. This was induced by a small change in pH from 8.5 to 6.5 at room temperature, allowing direct elution of the cleaved target protein from the chitin affinity resin. The target proteins include the E. coli maltose-binding protein and β-lactamase enzyme, as well as two human antibody fragments that contain disulfide bonds. In all cases, the target proteins were purified with good activity and yield, without the need for refolding. Overall, this work demonstrates the compatibility of the ΔI-CM intein with the PelB secretion system in E. coli, greatly expanding its potential to more complex proteins. [ABSTRACT FROM AUTHOR]

Published

2011

5. Expressions and purification of a mature form of recombinant human Chemerin in Escherichia coli

Author

Xiang, Di, Zhang, Jing, Chen, Yizhe, Guo, Yiping, Schalow, Adrian, Zhang, Zhonghui, Hu, Xiaojia, Yu, Hongjing, Zhao, Mei, Zhu, Shunying, Lu, Huili, Wu, Mingyuan, Yu, Yan, Moldenhauer, Anja, and Han, Wei

Subjects

*ESCHERICHIA coli, *G proteins, *CHEMOKINES, *DENDRITIC cells, *PROTEIN binding, *ION exchange (Chemistry), *CHEMOTAXIS, *GENE expression, *RECOMBINANT proteins

Abstract

Abstract: Chemerin is a novel chemokine that binds to the G protein-coupled receptor (GPCR) ChemR23, also known as chemokine-like receptor 1 (CMKLR1). It is secreted as a precursor and executes pro-inflammatory functions when the last six amino acids are removed from its C-terminus by serine proteases. After maturation, Chemerin attracts dendritic cells and macrophages through binding to ChemR23. We report a new method for expression and purification of mature recombinant human Chemerin (rhChemerin) using a prokaryotic system. After being expressed in bacteria, rhChemerin in inclusion bodies was denatured using 6M guanidine chloride. Soluble rhChemerin was prepared by the protein-specific renaturation solution under defined conditions. It was subsequently purified using ion-exchange columns to more than 95% purity with endotoxin level <1.0 EU/μg. We further demonstrated its biological activities for attracting migration of human dendritic cells and murine macrophages in vitro using established chemotaxis assays. [Copyright &y& Elsevier]

Published

2010

6. Preparation of hepatitis C virus structural and non-structural protein fragments and studies of their immunogenicity

Author

Mihailova, Marija, Fiedler, Melanie, Boos, Mechthild, Petrovskis, Ivars, Sominskaya, Irina, Roggendorf, Michael, Viazov, Sergei, and Pumpens, Paul

Subjects

*HEPATITIS C, *PROTEINS, *ESCHERICHIA coli, *RECOMBINANT proteins

Abstract

Abstract: Plasmids pQE-60 and pQE-30 containing 6× His-tag sequence were used for expression of fragments of HCV structural and non-structural proteins in Escherichia coli (E. coli). The following fragments were used: core (1–98aa), NS3 (202–482aa), and tetramer of hypervariable region 1 (HVR1) of E2 protein. The constructed plasmids directed high levels of expression of HCV proteins in E. coli JM109. After purification by the metal-affinity chromatography on nickel–nitrilotriacetic acid (Ni–NTA) agarose, the His-tagged HCV proteins were used for immunization of BALB/c mice. All three proteins were able to induce high levels of specific antibodies and, in the case of the NS3 and HVR1 tetramer, also to mount vigorous cell-proliferating responses. High immunogenicity of the tested fragments of HCV proteins shows them as good candidates for inclusion into the future HCV vaccine preparations. [Copyright &y& Elsevier]

Published

2006