Metabolic Flux Analysis And Optimal Control In The Process of Ectoine Fermentation

机译：切荷发酵过程中的代谢通量分析和最佳控制

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In this study, the metabolic network of ectoine by Halomonas venusta DSM 4743 was established. The key nodes to influence the ectoine fermentation in metabolic flux and the basis during optimal control of fermentation process were investigated. The results showed that G6P, α-KG and OAA nodes were the key factors to influence the synthesis of ectoine. The metabolic flux distributions at the key nodes were significantly improved and ectoine concentration was enhanced in ectoine fermentation by adopting monosodium glutamate as the sole carbon and nitrogen sources, feeding monosodium glutamate and supplying oxygen limitedly. The batch fermentation was carried out in 10 L fermentor, the concentration and yield of ectoine was 8.4 g/L and 0.1 g/g, respectively, which were increased by 2.8 and 2 times, by comparison with batch fermentation using glucose as carbon source.

机译：在这项研究中，建立了卤代菌菌菌菌的代谢网络4743。研究了影响代谢通量胞外发酵的关键节点及在发酵过程的最佳控制期间的基础。结果表明，G6P，α-KG和OAA节点是影响胞外合成的关键因素。关键节点处的代谢助焊剂分布显着改善，通过采用谷氨酸单钠作为唯一的碳和氮源，将谷氨酸钠和供应氧气供应氧气来增强胞外发酵。分批发酵在10L发酵罐中进行，分别与使用葡萄糖作为碳源的分批发酵相比，分别为8.4g / L和0.1g / g的0.1g / g。

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《International Conference on Biotechnology, Chemical and Materials Engineering》|2012年||共4页
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Linhua Zhang; Xin Zheng; Yajun Lang;
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中图分类 TB3-532;
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Metabolic flux analysis; Ectoine; Fermentation control; Halomonas venusta DSM 4743;

机译：代谢助焊剂分析;切割;发酵控制;卤素尼斯塔DSM 4743;

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Metabolic Flux Analysis And Optimal Control In The Process of Ectoine Fermentation

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