The aim of this study was to achieve high-level production of the human growth hormone (hGH) in the prokaryotic expression system. In this regard, we performed cloning, expression, and purification of a synthetic hGH gene in BL21 (DE3) strain of E. coli. The hGH production was determined by SDS-PAGE and western blotting techniques, and then the protein concentration was determined by the Bradford assay. To gain insight into the effect of different nutrients on the growth of E. coli and hGH production, in a preliminary assessment nine different types of the basal medium were analyzed. The highest growth of E. coli and hGH production were observed in TB and SOB media. Accordingly, design of experiments was employed for screening the most significant nutrients, and central composite face design was applied for the optimization. The optimum medium consisted of yeast extract (10 g/L), tryptone (10 g/L), and K2HPO4 (2 g/L). The optimum hGH concentration was 391 mg/L, which was 3-fold higher than the hGH concentration in the LB basal medium (119 mg/L). This production rate is the highest hGH concentration reported in the IPTG-inducible expression systems.
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Interdisciplinary gene manipulation, molecular cloning, and recombinant expression of modified human growth hormone isoform-1 in E. coli system.
Int J Biol Macromol
February 2024
Biochemistry and Molecular Biology Department, Theodor Bilharz Research Institute, Giza 12411, Egypt. Electronic address:
Background: Growth hormone (GH) is a hormone that promotes growth, cell reproduction, and cell restoration in humans and animals.
Objectives: Production of recombinant human growth hormone (rhGH) in Escherichia coli (E. coli) and assessment of its characteristics and proliferation stimulatory activity.
Location and Orientation of the Genetic Toxin-Antitoxin Element hok/sok in the Plasmid Affect Expression of Pharmaceutically Significant Proteins in Bacterial Cells.
Biochemistry (Mosc)
September 2023
Institute of Bioengineering, Federal Research Center of Biotechnology, Russian Academy of Sciences, Moscow, 117312, Russia.
Genetic toxin-antitoxin element hok/sok from the natural Escherichia coli R1 plasmid ensures segregational stability of plasmids. Bacterial cells that have lost all copies of the plasmid encoding the short-lived antitoxin are killed by the stable toxin. When introduced into bacterial expression vectors, the hok/sok element can increase the productive time of recombinant protein biosynthesis by slowing down accumulation of non-producing cells lacking the expression plasmid.
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FEBS Lett
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Department of Biochemistry and Biophysics, Stockholm University, Sweden.
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Institute of Microbiology and Infection, School of Biosciences, University of Birmingham, Birmingham B15 2TT, UK; College of Health & Life Sciences, Aston University, Aston Triangle, Birmingham B4 7ET, UK. Electronic address:
We have developed a novel urea-inducible recombinant protein production system by exploiting the Proteus mirabilis urease ureR-ureD promoter region and the ureR AraC-family transcriptional regulator. Experiments using the expression of β-galactosidase and green fluorescent protein (GFP) showed that promoter activity is tightly regulated and that varying the concentration of urea can give up to 100-fold induction. Production of proteins of biopharmaceutical interest has been demonstrated, including human growth hormone (hGH), a single chain antibody fragment (scFv) against interleukin-1β and a potential Neisserial vaccine candidate (BamA).
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Arch Microbiol
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Department of Food Biotechnology and Microbiology, Institute of Food Sciences, Warsaw University of Life Sciences, Nowoursynowska 159 C, 02-776, Warsaw, Poland.
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