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KMID : 1234420090370030231
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Korean Journal of Microbiololgy and Biotechnology
2009 Volume.37 No. 3 p.231 ~ p.237
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Jo Ji-Song
Do Quynh Anh Nguyen
Yun Jun-Ki
Kim Yu-Na
Kim Yoo-Keun
Kim Sung-Bae
Seo Yang-Gon
Lee Byung-Hak
Kang Moon-Kuk
Kim Chang-Joon
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Abstract
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This paper aimed to develop a solvent extraction and purification process to recover high-purified ¥â-carotene from recombinant Escherichia coli. Cells harvested from the culture broth were treated through numerous steps: dehydration, solvent extraction, crystal formation and separation. To optimize the extracting condition, experiments were carried out to investigate the effect of cell disruption, temperature, organic solvents, solvent-biomass ratio on the yield of ¥â-carotene extracted from cells. The result indicated that no significant differences of extraction yield were observed from cells with or without step of cell disruption. Among different extracting solvents, the highest extraction yield of ¥â-carotene, 30.3 mg-¥â-carotene/ g-dry cells, was obtained with isobutyl acetate at solvent-biomass ratio 25 mL/g-dry cells at 50oC. Notably, in case of acetone, the extraction yield was quite low when using acetone itself, but increased almost up to the highest value when combining this solvent and olive oil. The purity of ¥â-carotene crystals obtained from crystallization and separation was 89%. The purity degree was further improved up to 98.5% by treating crude crystals with additional ethanol washing.
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KEYWORD
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Recombinant Escherichia coli, ¥â-carotene, solvent extraction, optimization, purification
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