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13C metabolic flux analysis-guided metabolic engineering of Escherichia coli for improved acetol production from glycerol

机译：13C代谢通量分析指导的大肠杆菌代谢工程以改善甘油中的丙酮醇生产

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BackgroundBioprocessing offers a sustainable and green approach to manufacture various chemicals and materials. Development of bioprocesses requires transforming common producer strains to cell factories. ¹³C metabolic flux analysis (¹³C-MFA) can be applied to identify relevant targets to accomplish the desired phenotype, which has become one of the major tools to support systems metabolic engineering. In this research, we applied ¹³C-MFA to identify bottlenecks in the bioconversion of glycerol into acetol by Escherichia coli. Valorization of glycerol, the main by-product of biodiesel, has contributed to the viability of biofuel economy.

机译：背景技术生物加工提供了一种可持续的绿色方法来制造各种化学品和材料。生物过程的发展需要将常见的生产菌株转化为细胞工厂。 ^{13 C代谢通量分析（^{13 C-MFA）可用于识别相关靶标以实现所需表型，这已成为支持系统代谢的主要工具之一工程。在这项研究中，我们应用了^{13 C-MFA来鉴定大肠杆菌将甘油生物转化为丙酮醇的瓶颈。生物柴油的主要副产品甘油的增值促进了生物燃料经济的可行性。}}}

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期刊名称 Biotechnology for Biofuels
作者
Ruilian Yao; Jiawei Li; Lei Feng; Xuehong Zhang; Hongbo Hu;
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作者单位

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年(卷),期 2019(12),-1
年度 2019
页码 29
总页数 13
原文格式 PDF
正文语种
中图分类应用微生物学;
关键词
sup13/supC metabolic flux analysis Metabolomics Acetol Glycerol NADPH Escherichia coli;

机译：sup 13 / sup C代谢通量分析;代谢组学;乙酸;甘油;NADPH;大肠杆菌;

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专利

1. Metabolic engineering of Escherichia coli to enhance acetol production from glycerol [J] . Yao Ruilian, Liu Qing, Hu Hongbo, Applied Microbiology and Biotechnology . 2015,第19期

机译：大肠埃希氏菌的代谢工程，以提高甘油中的丙酮醇产量
2. Effects of metabolic engineering on downstream processing operational cost and energy consumption: the case of Escherichia coli Escherichia coliEscherichia coli 's's glycerol conversion to succinic acid [J] . Tafur Rangel Albert Enrique, Camelo Valera Laura Carolina, Gómez Ramírez Jorge Mario, Journal of Chemical Technology & Biotechnology . 2018,第7期

机译：代谢工程对下游加工运营成本和能源消耗的影响： escherichia coli < fi xmlns =“http://www.wiley.com/namespace/wiley”> escherichia coli escherichia coli 's < / fi>对琥珀酸的甘油转化为琥珀酸
3. Improving 1,3-propanediol production from glycerol in a metabolically engineered Escherichia coli by reducing accumulation of sn-glycerol-3-phosphate [J] . Zhu MM, Lawman PD, Cameron DC Biotechnology Progress . 2002,第4期

机译：通过减少三磷酸三甘油酯的积累来提高新陈代谢工程化大肠杆菌中甘油的1,3-丙二醇生产
4. Comparison of Transcript Levels by DNA Microarray and Metabolic Flux Based on Flux Analysis for the Production of Poly-γ-Glutamic Acid in Recombinant Escherichia coli [C] . Sung Ho Yoon, Sang Yup Lee Workshop on Genome Informatics . 2002

机译：基于磁通分析的DNA微阵列和代谢通量对重组大肠杆菌中聚乙烯 - 谷氨酸生产的转录物流量的比较
5. Application of metabolic and biochemical engineering techniques to enhance metabolic flux throughput and improve succinate production in Escherichia coli [D] . Chhiber, Aasheesh 2001

机译：代谢和生化工程技术的应用，以提高大肠杆菌的代谢通量和改善琥珀酸的产量
6. Elucidation of the co-metabolism of glycerol and glucose in Escherichia coli by genetic engineering transcription profiling and 13C metabolic flux analysis [O] . Ruilian Yao, Dewang Xiong, Hongbo Hu, 2016

机译：通过基因工程转录谱分析和13C代谢通量分析阐明大肠杆菌中甘油和葡萄糖的共代谢
7. 13C metabolic flux analysis-guided metabolic engineering of Escherichia coli for improved acetol production from glycerol [O] . Ruilian Yao, Jiawei Li, Lei Feng, 2019

机译：13C代谢通量分析 - 富尔希氏菌科学的代谢工程改善甘油的乙酰醇生产

13C metabolic flux analysis-guided metabolic engineering of Escherichia coli for improved acetol production from glycerol

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