Literature DB >> 21398484

Driving forces enable high-titer anaerobic 1-butanol synthesis in Escherichia coli.

Claire R Shen1, Ethan I Lan, Yasumasa Dekishima, Antonino Baez, Kwang Myung Cho, James C Liao.   

Abstract

1-Butanol, an important chemical feedstock and advanced biofuel, is produced by Clostridium species. Various efforts have been made to transfer the clostridial 1-butanol pathway into other microorganisms. However, in contrast to similar compounds, only limited titers of 1-butanol were attained. In this work, we constructed a modified clostridial 1-butanol pathway in Escherichia coli to provide an irreversible reaction catalyzed by trans-enoyl-coenzyme A (CoA) reductase (Ter) and created NADH and acetyl-CoA driving forces to direct the flux. We achieved high-titer (30 g/liter) and high-yield (70 to 88% of the theoretical) production of 1-butanol anaerobically, comparable to or exceeding the levels demonstrated by native producers. Without the NADH and acetyl-CoA driving forces, the Ter reaction alone only achieved about 1/10 the level of production. The engineered host platform also enables the selection of essential enzymes with better catalytic efficiency or expression by anaerobic growth rescue. These results demonstrate the importance of driving forces in the efficient production of nonnative products.

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Year:  2011        PMID: 21398484      PMCID: PMC3126405          DOI: 10.1128/AEM.03034-10

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  46 in total

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Journal:  Appl Environ Microbiol       Date:  1987-06       Impact factor: 4.792

3.  Thiolase from Clostridium acetobutylicum ATCC 824 and Its Role in the Synthesis of Acids and Solvents.

Authors:  D P Wiesenborn; F B Rudolph; E T Papoutsakis
Journal:  Appl Environ Microbiol       Date:  1988-11       Impact factor: 4.792

4.  Reconstructing the clostridial n-butanol metabolic pathway in Lactobacillus brevis.

Authors:  Oksana V Berezina; Natalia V Zakharova; Agnieszka Brandt; Sergey V Yarotsky; Wolfgang H Schwarz; Vladimir V Zverlov
Journal:  Appl Microbiol Biotechnol       Date:  2010-03-02       Impact factor: 4.813

5.  Production of L -alanine by metabolically engineered Escherichia coli.

Authors:  Xueli Zhang; Kaemwich Jantama; J C Moore; K T Shanmugam; L O Ingram
Journal:  Appl Microbiol Biotechnol       Date:  2007-09-15       Impact factor: 4.813

6.  Enhanced Butanol Production by Clostridium beijerinckii BA101 Grown in Semidefined P2 Medium Containing 6 Percent Maltodextrin or Glucose.

Authors:  J Formanek; R Mackie; H P Blaschek
Journal:  Appl Environ Microbiol       Date:  1997-06       Impact factor: 4.792

7.  Structure-guided alteration of coenzyme specificity of formate dehydrogenase by saturation mutagenesis to enable efficient utilization of NADP+.

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8.  Production of optically pure D-lactic acid in mineral salts medium by metabolically engineered Escherichia coli W3110.

Authors:  Shengde Zhou; T B Causey; A Hasona; K T Shanmugam; L O Ingram
Journal:  Appl Environ Microbiol       Date:  2003-01       Impact factor: 4.792

9.  Re-engineering Escherichia coli for ethanol production.

Authors:  L P Yomano; S W York; S Zhou; K T Shanmugam; L O Ingram
Journal:  Biotechnol Lett       Date:  2008-09-05       Impact factor: 2.461

Review 10.  Fermentative butanol production by Clostridia.

Authors:  Sang Yup Lee; Jin Hwan Park; Seh Hee Jang; Lars K Nielsen; Jaehyun Kim; Kwang S Jung
Journal:  Biotechnol Bioeng       Date:  2008-10-01       Impact factor: 4.530
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  127 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2012-04-02       Impact factor: 11.205

2.  Engineering a homobutanol fermentation pathway in Escherichia coli EG03.

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Journal:  J Ind Microbiol Biotechnol       Date:  2012-07-10       Impact factor: 3.346

3.  Supplementation of intracellular XylR leads to coutilization of hemicellulose sugars.

Authors:  Dan Groff; Peter I Benke; Tanveer S Batth; Gregory Bokinsky; Christopher J Petzold; Paul D Adams; Jay D Keasling
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Review 4.  Rethinking glycolysis: on the biochemical logic of metabolic pathways.

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Review 5.  Systems metabolic engineering of microorganisms for natural and non-natural chemicals.

Authors:  Jeong Wook Lee; Dokyun Na; Jong Myoung Park; Joungmin Lee; Sol Choi; Sang Yup Lee
Journal:  Nat Chem Biol       Date:  2012-05-17       Impact factor: 15.040

6.  Quantitative assessment of thermodynamic constraints on the solution space of genome-scale metabolic models.

Authors:  Joshua J Hamilton; Vivek Dwivedi; Jennifer L Reed
Journal:  Biophys J       Date:  2013-07-16       Impact factor: 4.033

7.  A Growth-Based, High-Throughput Selection Platform Enables Remodeling of 4-Hydroxybenzoate Hydroxylase Active Site.

Authors:  Sarah Maxel; Derek Aspacio; Edward King; Linyue Zhang; Ana Paula Acosta; Han Li
Journal:  ACS Catal       Date:  2020-06-05       Impact factor: 13.084

Review 8.  Microbial production of advanced biofuels.

Authors:  Jay Keasling; Hector Garcia Martin; Taek Soon Lee; Aindrila Mukhopadhyay; Steven W Singer; Eric Sundstrom
Journal:  Nat Rev Microbiol       Date:  2021-06-25       Impact factor: 60.633

Review 9.  Protein engineering for metabolic engineering: current and next-generation tools.

Authors:  Ryan J Marcheschi; Luisa S Gronenberg; James C Liao
Journal:  Biotechnol J       Date:  2013-04-16       Impact factor: 4.677

10.  Exploiting microbial hyperthermophilicity to produce an industrial chemical, using hydrogen and carbon dioxide.

Authors:  Matthew W Keller; Gerrit J Schut; Gina L Lipscomb; Angeli L Menon; Ifeyinwa J Iwuchukwu; Therese T Leuko; Michael P Thorgersen; William J Nixon; Aaron S Hawkins; Robert M Kelly; Michael W W Adams
Journal:  Proc Natl Acad Sci U S A       Date:  2013-03-25       Impact factor: 11.205
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