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In Vivo Validation of In Silico Predicted Metabolic Engineering Strategies in Yeast: Disruption of α-Ketoglutarate Dehydrogenase and Expression of ATP-Citrate Lyase for Terpenoid Production

机译：酵母中计算机预测的代谢工程策略的体内验证：破坏α-酮戊二酸脱氢酶和表达ATP柠檬酸裂解酶以生产萜类化合物。

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BackgroundEngineering of the central carbon metabolism of Saccharomyces cerevisiae to redirect metabolic flux towards cytosolic acetyl-CoA has become a central topic in yeast biotechnology. A cell factory with increased flux into acetyl-CoA can be used for heterologous production of terpenoids for pharmaceuticals, biofuels, fragrances, or other acetyl-CoA derived compounds. In a previous study, we identified promising metabolic engineering targets in S. cerevisiae using an in silico stoichiometric metabolic network analysis. Here, we validate selected in silico strategies in vivo.

机译：背景技术酿酒酵母的中央碳代谢的工程化以将代谢通量重定向至胞质乙酰辅酶A已成为酵母生物技术的中心课题。进入乙酰辅酶A的通量增加的细胞工厂可用于异源生产用于药物，生物燃料，香料或其他乙酰辅酶A的化合物的萜类化合物。在先前的研究中，我们使用计算机化学计量代谢网络分析确定了酿酒酵母中有希望的代谢工程靶标。在这里，我们验证了体内的计算机策略。

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期刊名称 PLoS Clinical Trials
作者
Evamaria Gruchattka; Oliver Kayser;
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年(卷),期 2010(10),12
年度 2010
页码 e0144981
总页数 25
原文格式 PDF
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1. Engineering the α-ketoglutarate overproduction from raw glycerol by overexpression of the genes encoding NADP~+-dependent isocitrate dehydrogenase and pyruvate carboxylase in Yarrowia lipolytica [J] . Venelina Yovkova, Christina Otto, Andreas Aurich, Applied Microbiology and Biotechnology . 2014,第5期

机译：通过解脂耶氏酵母中编码NADP〜+依赖性异柠檬酸脱氢酶和丙酮酸羧化酶的基因的过表达来工程化粗甘油中α-酮戊二酸的过量生产
2. Plant Metabolic Engineering Strategies for the Production of Pharmaceutical Terpenoids [J] . Xu Lu, Kexuan Tang, Ping Li Frontiers in Plant Science . 2016,第12期

机译：植物生产制药萜件生产的代谢工程策略
3. Enhancement of docosahexaenoic acid production by overexpression of ATP-citrate lyase and acetyl-CoA carboxylase in Schizochytrium sp. [J] . Xiao Han, Zhunan Zhao, Ying Wen, Biotechnology for Biofuels . 2020,第1期

机译：通过硫酸盐裂解酶及乙酰氨基苯甲酸酯的过度表达增强二十二碳六烯酸产生的酶。
4. Metabolic engineering of Catharanthus roseus hairy roots for terpenoid indole alkaloid production under light and dark conditions [C] . Guy W. Sander, Susan I. Gibson, Ka-Yiu San, Annual biochemical engineering symposium;Biochemical engineering symposium . 2008

机译：长春花毛状根的代谢工程，在明亮和黑暗的条件下生产萜类吲哚生物碱
5. Metabolic Engineering using Computer Simulation Predictions and Protein Expression Studies towards Anthocyanin Production in Escherichia coli. [D] . Dvora, Hila. 2011

机译：使用计算机模拟预测和蛋白质表达研究对大肠杆菌中花色苷产生的代谢工程。
6. Metabolic engineering with ATP-citrate lyase and nitrogen source supplementation improves itaconic acid production in Aspergillus niger [O] . Abeer H. Hossain, Roy van Gerven, Karin M. Overkamp, 2019

机译：ATP柠檬酸裂解酶和氮源补充的代谢工程改善了黑曲霉中衣康酸的产生
7. In Vivo Validation of In Silico Predicted Metabolic Engineering Strategies in Yeast: Disruption of α-Ketoglutarate Dehydrogenase and Expression of ATP-Citrate Lyase for Terpenoid Production. [O] . Evamaria Gruchattka, Oliver Kayser 2015

机译：在酵母中进行的silico预测代谢工程策略的体内验证：α-酮戊二酸脱氢酶的破坏和aTp-柠檬酸裂解酶在萜类化合物生产中的表达。

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In Vivo Validation of In Silico Predicted Metabolic Engineering Strategies in Yeast: Disruption of α-Ketoglutarate Dehydrogenase and Expression of ATP-Citrate Lyase for Terpenoid Production

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