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不同碳源生物转化合成L-亮氨酸的代谢计量分析 被引量:4

Stoichiometric Analysis of L-Leucine Biosynthesis by Using Different Carbon Sources
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摘要 目的:建立黄色短杆菌利用不同碳源生物合成L-亮氨酸的代谢网络模型,并进行代谢网络计量分析。方法:通过对所构建的L-亮氨酸代谢网络模型进行途径分析,确定以果糖、葡萄糖、蔗糖或木糖为碳源时L-亮氨酸生物合成的基元模型、最大理论产率和不同模型的呼吸熵。结果:通过途径分析得到了L-亮氨酸生物合成的基元模型。以果糖、葡萄糖、蔗糖和木糖为碳源时L-亮氨酸的最大理论产率均为66.7%,其对应的最大呼吸熵分别为18、16、19、18。结论:L-亮氨酸理论得率与碳源种类无关;呼吸熵增加,能够有效提高L-亮氨酸合成代谢流,限制菌体量的过量生成。与其他碳源相比,蔗糖能够避免碳架溢流出现,合成L-亮氨酸能量代谢需求低;而葡萄糖能够较好地满足菌体生长和产酸的需求。 Objective: The stoichiometric analysis of L-leucine biosynthesis was conducted to study the effects of carbon sourses on the L-leucine production. Methods: Pathway analysis for the L-leucine production by Brevibacterium flavum was conducted when fructose, glucose, sucrose or xylose was used as substrate seperately. Results: The elementary modes, theoretical yields and respiratory quotient of L-leucine biosynthesis were finally determined. When fructose, glucose, sucrose or xylose was used as substrate, the maximal theoretical yields of L-leucine production were all 66.7% and the corresponding maximal respiratory quotients were 18, 16, 19 and 18, respectively. Conclusion: The maximal theoretical yield of L-leucine has nothing to do with carbon sources. The increase of respiratory quotient can lead to both the im- provement of L-leucine production and the decrease of biomass formation. In contrast with other carbon sources, sucrose can prevent the carbon flooding and the energy demand of L-leucine biosynthesis is lower. However glucose can contribute to both biomass formation and L-leucine production better than the others.
作者 刘辉 徐庆阳 谢希贤 袁英 陈宁
机构地区 天津科技大学生物工程学院 天津天安药业股份有限公司
出处 《生物技术通讯》 CAS 2008年第2期251-254,共4页 Letters in Biotechnology
基金 天津市科技支撑计划重点项目(07ZCKFSH00100)
关键词 L-亮氨酸 途径分析 黄色短杆菌 呼吸熵 L-leucine pathway analysis Brevibacterium flavum respiratory quotient
分类号 TQ922.9 [轻工技术与工程—发酵工程]
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参考文献18

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2008年 第2期

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