Yu San Chen scite author profile

Yu San Chen

3Publications

9Citation Statements Received

156Citation Statements Given

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146

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National Chung Hsing University

Publications

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Production and characterization of active recombinant interleukin‐12/eGFP fusion protein in stably‐transfected DF1 chicken cells

Chen

Shen

et al. 2015

Biotechnology Progress

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The adjuvant activity of chicken interleukin-12 (chIL-12) protein has been described as similar to that of mammalian IL-12. Recombinant chIL-12 can be produced using several methods, but chIL-12 production in eukaryotic cells is lower than that in prokaryotic cells. Stimulating compounds, such as dimethyl sulfoxide (DMSO), can be added to animal cell cultures to overcome this drawback. In this study, we constructed a cell line, DF1/chIL-12 which stably expressed a fusion protein, chIL-12 and enhanced green fluorescent protein (eGFP) connected by a (G4 S)3 linker sequence. Fusion protein production was increased when cells were cultured in the presence of DMSO. When 1 × 10(6) DF1/chIL-12 cells were inoculated in a T-175 flask containing 30 mL of media, incubated for 15 h, and further cultivated in the presence of 4% DMSO for 48 h, the production of total fusion protein was mostly enhanced compared with the production of total fusion protein by using cell lysates induced with DMSO at other concentrations. The concentrations of the unpurified and purified total fusion proteins in cell lysates were 2,781 ± 2.72 ng mL(-1) and 2,207 ± 3.28 ng mL(-1) , respectively. The recovery rate was 79%. The fusion protein stimulated chicken splenocytes to produce IFN-γ, which was measured using an enzyme-linked immunosorbent assay, in the culture supernatant, indicating that treating DF1/chIL-12 cells with DMSO or producing chIL-12 in a fusion protein form does not have adverse effects on the bioactivity of chIL-12.

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Cloning and Characterization of a 7 Transmembrane Receptor from the Adherent Cells of Chicken Peripheral Blood Mononuclear Cells

Chen

Shien

et al. 2014

PLoS ONE

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A cDNA encoding a 7 transmembrane (7TM) receptor gene from the adherent cells of chicken peripheral blood mononuclear cells (PBMC) was cloned and characterized. The open reading frame of the chicken-7TM (Ch-7TM) receptor gene was 1008 nucleotides long, encoding a protein of 335 amino acid residues with a molecular mass of approximately 37.1 kDa. Hydrophobic stretches indicated the presence of 7 TM domains. Moreover, the complete nucleotide sequences encoding 7TM of duck (Du-7TM) and goose (Go-7TM), corresponding to the open reading frame of Ch-7TM, were determined. Each of the Du- and Go-7TM encoding regions comprised 990 nucleotides, representing an 18-nucleotide deletion in alignment with the Ch-7TM encoding region, resulting in a 6-amino-acid deletion at the 3′-end. No signal peptides were predicted. Six phosphorylation sites were predicted and conserved for all three 7TMs. The proteins of the three 7TMs were similar, with 11 conserved cysteine residues. No glycosylation sites could be predicted. The results of the pairwise comparisons indicated that the Ch-7TM encoding region and Ch-7TM protein were the least similar to those of Du- and Go-7TMs. These results were in accordance with those of the phylogenetic analysis, which indicated that the Du- and Go-7TM encoding regions clustered, but were separated from the Ch-7TM encoding region. Monoclonal antibody B28D5 was prepared from spleens of mice immunized with the bacterially expressed N-terminal (55 amino acid residues) region of the Ch-7TM protein for further use. Double staining with B28D5 and KUL01 suggested that Ch-7TM was expressed in subsets of the adherent cells, among which a subset that was recognized with both antibodies was likely of monocyte and macrophage lineage. However, the fluorescence intensities of B28D5 and, particularly, KUL01 decreased after the adherent cells were incubated for additional 48 h.

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Characterization of functionally active interleukin‐18/eGFP fusion protein expression during cell cycle phases in recombinant chicken DF1 Cells

Chen

Shien

et al. 2016

Biotechnology Progress

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The dependence of foreign gene expression on cell cycle phases in mammalian cells has been described. In this study, a DF1/chIL-18a cell line that stably expresses the fusion protein chIL-18 was constructed and the enhanced green fluorescence protein connected through a (G4 S)3 linker sequence investigated the relationship between cell cycle phases and fusion protein production. DF1/chIL-18a cells (1 × 10(5) ) were inoculated in 60-mm culture dishes containing 5 mL of media to achieve 50%-60% confluence and were cultured in the presence of the cycle-specific inhibitors 10058-F4, aphidicolin, and colchicine for 24 and 48 h. The percentage of cell density and mean fluorescence intensity in each cell cycle phase were assessed using flow cytometry. The inhibitors effectively arrested cell growth. The fusion protein production rate was higher in the S phase than in the G0/G1 and G2/M phases. When cell cycle progression was blocked in the G0/G1, S, and G2/M phases by the addition of 10058-F4, aphidicolin, and colchicine, respectively, the aphidicolin-induced single cells showed higher fusion protein levels than did the 10058-F4- or colchicine-induced phase cells and the uninduced control cells. Although the cells did not proliferate after the drug additions, the amount of total fusion protein accumulated in aphidicolin-treated cells was similar to that in the untreated cultures. Fusion protein is biologically active because it induces IFN-γ production in splenocyte cultures of chicken. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:581-591, 2016.

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Yu San Chen

Production and characterization of active recombinant interleukin‐12/eGFP fusion protein in stably‐transfected DF1 chicken cells

Cloning and Characterization of a 7 Transmembrane Receptor from the Adherent Cells of Chicken Peripheral Blood Mononuclear Cells

Characterization of functionally active interleukin‐18/eGFP fusion protein expression during cell cycle phases in recombinant chicken DF1 Cells

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