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代谢工程改造毕赤酵母生产葡萄糖二酸
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Metabolic Engineering ofPichia pastorisfor Production of Glucaric Acid
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DOI:10.3969/j.issn.1673-1689.2018.09.009
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中文关键词: 葡萄糖二酸 毕赤酵母 代谢工程 发酵优化
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英文关键词: glucaric acid,Pichia pastoris,metabolic engineering,fermentation optimization
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基金项目:
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摘要点击次数: 139
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全文下载次数: 214
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中文摘要:
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葡萄糖二酸是一种具有重要生物功能的有机酸,为了实现微生物合成葡萄糖二酸的高效生产,异源表达来源于小鼠基因组的MIOX基因及Pseudomonas putida KT2440的udh基因,在毕赤酵母中构建葡萄糖二酸合成途径,实现了葡萄糖二酸的生成。通过在摇瓶水平进行优化,确定了最适碳源为葡萄糖(初始质量浓度60 g/L最优),最适初始pH为5.5,最优接种龄为24 h,最适接种体积分数为25%,重组毕赤酵母生成的葡萄糖二酸产量从最初的(566.36±16.98) mg/L提高至(967.60±3.90) mg/L。在此基础上,重组毕赤酵母在3 L发酵罐中放大培养,葡萄糖二酸的产量达到了(2.60±0.04) g/L。
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英文摘要:
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Glucaric acid is a kind of organic acid with important biological values. In order to achieve high-yield production of glucaric acid,a glucaric acid synthetic pathway was constructed inPichia pastorisby co-expression of the mouse MIOX gene and the udh gene from Pseudomonas putida KT2440,which led to accumulation of glucaric acid. By fermentation optimization in shake flasks,the results showed the optimum carbon source was glucose(60 g/L was the best initial concentration),the optimum initial pH was 5.5,the optimum seed time was 24 h,and the optimum inoculation amount was 25%. The glucaric acid production was increased from (566.36±16.98) mg/L to (967.60±3.90) mg/L after optimization. According to the optimized conditions,the production of glucaric acid was substantially increased to (2.60±0.04) g/L in a 3 L fermentor.
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