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http://dx.doi.org/10.4014/jmb.0909.09046

Enhanced Production of Human Serum Albumin by Fed-Batch Culture of Hansenula polymorpha with High-Purity Oxygen  

Youn, Jong-Kyu (Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology)
Shang, Longan (Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology)
Kim, Moon-Il (Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology)
Jeong, Chang-Moon (Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology)
Chang, Ho-Nam (Department of Chemical and Biomolecular Engineering, Korea Advanced Institute of Science and Technology)
Hahm, Moon-Sun (Molecular Biology and Protein Engineering Laboratory, Bioprogen Co., Ltd., Daedeok BioCommunity)
Rhee, Sang-Ki (Korea Research Institute of Bioscience and Biotechnology)
Kang, Hyun-Ah (Korea Research Institute of Bioscience and Biotechnology)
Publication Information
Journal of Microbiology and Biotechnology / v.20, no.11, 2010 , pp. 1534-1538 More about this Journal
Abstract
Fed-batch cultures of Hansenula polymorpha were studied to develop an efficient biosystem to produce recombinant human serum albumin (HSA). To comply with this purpose, we used a high-purity oxygen-supplying strategy to increase the viable cell density in a bioreactor and enhance the production of target protein. A mutant strain, H. polymorpha GOT7, was utilized in this study as a host strain in both 5-l and 30-l scale fermentors. To supply high-purity oxygen into a bioreactor, nearly 100% high-purity oxygen from a commercial bomb or higher than 93% oxygen available in situ from a pressure swing adsorption (PSA) oxygen generator was employed. Under the optimal fermentation of H. polymorpha with highpurity oxygen, the final cell densities and produced HSA concentrations were 24.6 g/l and 5.1 g/l in the 5-l fermentor, and 24.8 g/l and 4.5 g/l in the 30-l fermentor, respectively. These were about 2-10 times higher than those obtained in air-based fed-batch fermentations. The discrepancies between the 5-l and 30-l fermentors with air supply were presumably due to the higher contribution of surface aeration over submerged aeration in the 5-l fermentor. This study, therefore, proved the positive effect of high-purity oxygen in enhancing viable cell density as well as target recombinant protein production in microbial fermentations.
Keywords
Fed-batch culture; high cell density; high-purity oxygen fermentation; human serum albumin; Hansenula polymorpha;
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