Abstract
The methylotrophic industrial yeast, Pi–chia pastoris, has been developed as a host system for the large–scale production of heterologous proteins. As an example of the systems, the synthesis of hepatitis B surface antigen (HBsAg) is described. Expression of the HBsAg gene is controlled by a methanol–regulated promoter derived from the primary alcohol oxidase gene, AOX1, of P. pastoris. The highest level of HBsAg is observed in a novel mutant strain of P. pastoris in which the AOX1 structural gene is deleted and replaced by a construction composed of the AOX1 promoter–HBsAg gene expression cassette. When grown on methanol, 2–3% of the soluble protein in this strain is HBsAg. Characterization of the recombinant HBsAg indicates that virtually all of the P. pastoris–synthesized HBsAg exists in a form which is similar to human serum–derived HBsAg 22 nm particles. Scale–up of the HBsAg production process from shake–flask to high cell–density fermentor cultures is described as well. A single culture of the P. pastoris HBsAg expression strain in a volume of 240 liters and at a density of 60 grams/liter dry weight of cells produced 0.4 grams/liter, or a total of 90 grams of HBsAg 22 nm particles, an amount sufficient for approximately 9 million doses of vaccine.
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Cregg, J., Tschopp, J., Stillman, C. et al. High–Level Expression and Efficient Assembly of Hepatitis B Surface Antigen in the Methylotrophic Yeast, Pichia Pastoris. Nat Biotechnol 5, 479–485 (1987). https://doi.org/10.1038/nbt0587-479
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DOI: https://doi.org/10.1038/nbt0587-479
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