Optimization of Culture Conditions for Enhanced Lysine Production Using Engineered Escherichia coli

Hanxiao Ying; Xun He; Yan Li; Kequan Chen; Pingkai Ouyang

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Optimization of Culture Conditions for Enhanced Lysine Production Using Engineered Escherichia coli

机译：使用工程大肠杆菌提高赖氨酸生产的培养条件的优化

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In this study, culture conditions, including dissolved oxygen (DO) content, presence of osmoprotectants, residual glucose concentration, and ammonium sulfate-feeding strategies, were investigated for decreasing the inhibition effects of acetic acid, ammonium, and osmotic stress on L-lysine fermentation by Escherichia coli. The results revealed that higher DO content and lower residual glucose concentration could decrease acetic acid accumulation, betaine supplementation could enhance osmotic stress tolerance, and variable speed ammonium sulfate-feeding strategy could decrease ammonium inhibition. Thus, with 25 % DO content, 0–5.0 g/L of residual glucose concentration, and 1.5 g/L of betaine supplementation, 134.9 g/L of L-lysine was obtained after 72 h of culture, with L-lysine yield and productivity of 45.4 % and 1.9 g/(L·h), respectively.

机译：在这项研究中，研究了培养条件，包括溶解氧（DO）含量，渗透保护剂的存在，残留葡萄糖浓度和硫酸铵喂养策略，以降低乙酸，铵和渗透胁迫对L-赖氨酸的抑制作用。大肠杆菌发酵。结果表明，较高的溶解氧含量和较低的残留葡萄糖浓度可以减少乙酸的积累，甜菜碱的补充可以增强渗透胁迫的耐受性，变速硫酸铵进料策略可以降低对铵的抑制作用。因此，在培养72小时后，以25％的DO含量，0-5.0 g / L的残留葡萄糖浓度和1.5 g / L的甜菜碱补充剂，可获得134.9 g / L的L-赖氨酸，L-赖氨酸的产量和生产率分别为45.4％和1.9 g /（L·h）。

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《Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology》 |2014年第8期|共9页
作者
Hanxiao Ying; Xun He; Yan Li; Kequan Chen; Pingkai Ouyang;
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原文格式 PDF
正文语种 eng
中图分类生物化学;
关键词
L-lysine; Engineered E. coli; Inhibition; Optimization; Fermentation;

机译：L-赖氨酸;工程大肠杆菌;抑制;优化;发酵;

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1. Optimization of Culture Conditions for Enhanced Lysine Production Using Engineered Escherichia coli [J] . Hanxiao Ying, Xun He, Yan Li, Applied biochemistry and biotechnology, Part A. enzyme engineering and biotechnology . 2014,第8期

机译：使用工程大肠杆菌提高赖氨酸生产的培养条件的优化
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Optimization of Culture Conditions for Enhanced Lysine Production Using Engineered Escherichia coli

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