• Title/Summary/Keyword: Recombinant Protein Production

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Pichia pastoris: A Recombinant Microfactory for Antibodies and Human Membrane Proteins

  • Goncalves, A.M.;Pedro, A.Q.;Maia, C.;Sousa, F.;Queiroz, J.A.;Passarinha, L.A.
    • Journal of Microbiology and Biotechnology
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    • v.23 no.5
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    • pp.587-601
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    • 2013
  • During the last few decades, it has become evident that the compatibility of the yeast biochemical environment with the ability to process and translate the RNA transcript, along with its capacity to modify a translated protein, are relevant requirements for selecting this host cell for protein expression in several pharmaceutical and clinical applications. In particular, Pichia pastoris is used as an industrial host for recombinant protein and metabolite production, showing a powerful capacity to meet required biomolecular target production levels in high-throughput assays for functional genomics and drug screening. In addition, there is a great advantage to using P. pastoris for protein secretion, even at high molecular weights, since the recovery and purification steps are simplified owing to relatively low levels of endogenous proteins in the extracellular medium. Clearly, no single microexpression system can provide all of the desired properties for human protein production. Moreover, chemical and physical bioprocess parameters, including culture medium formulation, temperature, pH, agitation, aeration rates, induction, and feeding strategies, can highly influence product yield and quality. In order to benefit from the currently available wide range of biosynthesis strategies using P. pastoris, this mini review focuses on the developments and technological fermentation achievements, providing both a comparative and an overall integration analysis. The main aim is to highlight the relevance and versatility of the P. pastoris biosystem to the design of more cost-effective microfactories to meet the increasing demands for recombinant membrane proteins and clinical antibodies for several therapeutic applications.

Novel Modification of Growth Medium Enables Efficient E. coli Expression and Simple Purification of an Endotoxin-Free Recombinant Murine Hsp70 Protein

  • Zachova, Katerinat;Krupka, Michal;Chamrad, Ivo;Belakova, Jana;Horynova, Milada;Weigl, Evzen;Sebela, Marek;Raska, Milan
    • Journal of Microbiology and Biotechnology
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    • v.19 no.7
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    • pp.727-733
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    • 2009
  • Heat shock protein 70 kDa (hsp70), a molecular chaperone involved in folding of nascent proteins, has been studied for its ability to activate innate and specific immunity. High purity hsp70 preparation is generally required for immunization experiments, because endotoxins and other immunologically active contaminants may affect immune responses independently of hsp70. We have developed a novel modification of E. coli-expression medium that enabled a simple two-step production and purification method for endotoxin-free recombinant hsp70. During Ni-NTA-based affinity purification of hsp70, a contaminating protein from host E. coli cells, L-glutamine-n-fructose-6-phosphate aminotransferase (GFAT), was identified. By testing various compounds, supplementation of growth medium with a GFAT metabolite,N-acetylglucosamine, was found to reduce GFAT expression and increase the total hsp70 yield five times. The new protocol is based on column purification of His-tagged hsp70 protein produced by E. coli with the modified medium, followed by endotoxin removal by Triton X-114 extraction. This approach yielded hsp70 with high purity and minimal endotoxin contamination, making the final product acceptable for immunization experiments. In summary, a simple modification of growth medium allowed production of recombinant mouse hsp70 in high yield and purity, thus compatible with immunological studies. This protocol may be useful for production of other Histagged proteins expressed in E. coli.

Production of Antifreeze Protein from Antarctic Bacterium Flavobacterium frigoris PS1 by using Fed-batch Culture of Recombinant Pichia pastoris (재조합 Pichia pastoris의 유가식 배양을 통한 남극세균 Flavobacterium frigoris PS1 유래 결빙방지단백질의 생산)

  • Kim, Eun Jae;Do, Hackwon;Lee, Jun Hyuck;Lee, Sung Gu;Kim, Hak Jun;Han, Se Jong
    • KSBB Journal
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    • v.29 no.4
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    • pp.303-306
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    • 2014
  • Antifreeze proteins (AFP) inhibit ice growth to permit the survival of polar organisms in the cold environments. The recombinant AFP from an Antarctic bacterium, Flavobacterium frigoris PS1, FfIBP (Flavobacterium frigoris ice-binding protein), was produced using Pichia pastoris expression system. The optimum fermentation temperature ($30^{\circ}C$) and pH (5) for FfIBP production were determined using a fed-batch culture system. The maximal cell density and purified FfIBP were 112 g/L and 70 mg/L, respectively. The thermal hysteresis (TH) activity (0.85) of FfIBP obtained using a glycerol-methanol fed-batch culture system was 2-fold higher than that of the LeIBP (Leucosporidium ice-binding protein). This work allows for large-scale production of FfIBP, which could be extended to further application studies using recombinant AFPs.

Strategy for enhancing Production of recombinant Protein in tobacco's suspension culture

  • Lee, Dong-Geun;Lee, Jae-Hwa
    • Proceedings of the Korean Society of Life Science Conference
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    • 2002.12a
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    • pp.48-60
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    • 2002
  • Granulocyte-macrophage colony-stimulating factor (GM-CSF) is a cytokine that stimulates the production of granulocytes, macrophages, and white blood cells. The effects of osmotic pressure on secretion of human GM-CSF into the culture medium were investigated in suspension cultures of transgenic tobacco cells. An increase in osmotic pressure caused by the addition of mannitol decreased the cell size index, with the effect being more pronounced when cells were measured wet rather than dry. Increased osmotic pressure enhanced the secretion of hGM-CSF. At 90 g/L mannitol, the maximum concentration tested, hGM-CSF was present in the culture medium at 980 ug/L. As the concentration of mannitol increased, the total amount of protein secreted also increased, but was disproportionately enriched in GM-CSF NaCl, another osmoticum, had very similar effects on cell growth and hGM-CSF production, but did not cause enrichment for hGM-CSF Additionally, protein-stabilizing polymer was added to culture broth to enhance stability of secreted recombinant protein. Finally, above two method were applied together to maximize the productivity.

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Production and Purification of Soluble Recombinant Human Lymphotoxin in Escherichia coli

  • Choi, Yoon-Ho;Na, Doe-Sun;Pan, Jae-Gu;Park, Seung-Kiel;Yoo, Hyang-Sook;Kang, Kook-Hee;Sung, Moon-Hee
    • Journal of Microbiology and Biotechnology
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    • v.2 no.1
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    • pp.21-25
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    • 1992
  • Human lymphotoxin (LT) was produced in E. coli as a soluble protein. The level of recombinant human LT production was about 4% of the total souble proteins of E. coli extracts. Recominant human LT was purified to apparant homogeneity by a simple procedure utilizing FPLC on Mono Q and Mono S columns. The specific activity of the purified LT was $10\times10^7\;units/mg$.

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Perfusion Cultivation of Transgenic Nicotiana tabacum Suspensions in Bioreactor for Recombinant Protein Production

  • Lee Sang-Yoon;Kim Dong-Il
    • Journal of Microbiology and Biotechnology
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    • v.16 no.5
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    • pp.673-677
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    • 2006
  • A perfusion culture of transgenic Nicotiana tabacum cell suspensions, transformed to express recombinant glucuronidase (GUS), was successfully performed in a 5-1 stirred tank bioreactor. With 0.1 $day^{-1}$ of perfusion rate, the maximum dry cell weight (DCW) reached to 29.5 g/l in 16 days, which was 2.1-fold higher than the obtained in batch culture (14.3 g/l). In terms of the production of GUS, the volumetric activity could be increased up to 12.8 U/ml by using perfusion, compared with 4.9 U/ml in batch culture. The specific GUS activities in both perfusion and batch cultures were maintained at similar levels, 200-400 U/g DCW. Consequently, a perfusion culture could be a good strategy for the enhanced production of recombinant proteins in a plant cell culture system.

Effect of Induction Temperature on the $P_L$ Promoter Controlled Production of Recombinant Human Interleukin-2 in Escherichia coli

  • Lee, In-Young;Kim, Myung-Kuk;Lee, Sun-Bok
    • Journal of Microbiology and Biotechnology
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    • v.2 no.1
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    • pp.26-34
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    • 1992
  • The effect of induction temperature on fermentation parameters has been investigated extensively using Escherichia coli M5248[pNKM21], a producer of recombinant human interleukin-2 (rhIL-2). In this recombinant microorganism, the gene expression of rhIL-2 is regulated by the cI857 repressor and $P_L$ promoter system. The recombinant fermentation parameters studied in this work include the cell growth, protein synthesis, cell viability, plasmid stability, $\beta$-lactamase activity, and rhIL-2 productivity. Interrelationships of such fermentation parameters have been analyzed through a quantitative assessment of the experimental data set obtained at eight different culture conditions. While the expression of rhIL-2 gene was repressed at culture temperatures below $34^\circ{C}$ with little effect on other fermentation parameters, under the conditions of rhIL-2 production $>(36~44^\circ{C})$ the cell growth, plasmid stability, and $\beta$-lactamase activity were, as induction temperature was increased, more profoundly reduced. Although the rhIL-2 content in the insoluble protein fraction was maximum at $40^\circ{C}$, total rhIL-2 production in the culture volume was found to be highest at the induction temperature of $36^\circ{C}$. This was in contrast to the previously known optimum induction temperature of the P$_{L}$ promoter system $>(40~42^\circ{C})$.Explanations for such a discrepancy have been proposed based on a product formation kinetics, and their implications have been discussed in detail.l.

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Evaluation of Th1/Th2-Related Immune Response against Recombinant Proteins of Brucella abortus Infection in Mice

  • Im, Young Bin;Park, Woo Bin;Jung, Myunghwan;Kim, Suk;Yoo, Han Sang
    • Journal of Microbiology and Biotechnology
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    • v.26 no.6
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    • pp.1132-1139
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    • 2016
  • Brucellosis is a zoonotic disease caused by Brucella, a genus of gram-negative bacteria. Cytokines have key roles in the activation of innate and acquired immunities. Despite several research attempts to reveal the immune responses, the mechanism of Brucella infection remains unclear. Therefore, immune responses were analyzed in mice immunized with nine recombinant proteins. Cytokine production profiles were analyzed in the RAW 264.7 cells and naive splenocytes after stimulation with three recombinant proteins, metal-dependent hydrolase (r0628), bacterioferritin (rBfr), and thiamine transporter substrate-binding protein (rTbpA). Immune responses were analyzed by ELISA and ELISpot assay after immunization with proteins in mice. The production levels of NO, TNF-α, and IL-6 were time-dependently increased after having been stimulated with proteins in the RAW 264.7 cells. In naive splenocytes, the production of IFN-γ and IL-2 was increased after stimulation with the proteins. It was concluded that two recombinant proteins, r0628 and rTbpA, showed strong immunogenicity that was induced with Th1-related cytokines IFN-γ, IL-2, and TNF-α more than Th2-related cytokines IL-6, IL-4, and IL-5 in vitro. Conversely, a humoral immune response was activated by increasing the number of antigen-secreting cells specifically. Furthermore, these could be candidate diagnosis antigens for better understanding of brucellosis.

The Study on Recombinant Protein Production using S. cerevisiae Mutant Y334 Suitable for GAL Promoter (GAL promoter에 적합한 효모변이주 Y334의 회분식 배양에서의 재조합 단백질 발현특성)

  • Gang, Hwan-Gu;Lee, Mun-Won;Jeon, Hui-Jin
    • KSBB Journal
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    • v.14 no.4
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    • pp.476-481
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    • 1999
  • S. cerevisiae mutant(reg1-501, gal1), which cannot use galactose and has alleviated glucose repression level, is used as host for optimizing induction of GAL promoter. The optimum concentration of galactose as inducer for recombinant protein production and the galactose consumption rate have been tested with S. cerevisiae mutant and compared with conventional S. cerevisiae. The extent of glucose repression were investigated for both strain and the degradation pattern of produced foreign protein have been compared in both cases. The effect of pH on foreign protein degradation pattern were studied for both strains. The secetion efficiency of both strains were carried out. Through these experiments, optimum condition of recombinant protein production by GAL promoter using S. cerevisiae mutant (reg1-501, gal1) were found.

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