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Journal Abstract Search

446 related items for PubMed ID: 27720802

  • 1. In silico metabolic engineering of Clostridium ljungdahlii for synthesis gas fermentation.
    Chen J, Henson MA.
    Metab Eng; 2016 Nov; 38():389-400. PubMed ID: 27720802
    [Abstract] [Full Text] [Related]

  • 2. Synthesis of Heterologous Mevalonic Acid Pathway Enzymes in Clostridium ljungdahlii for the Conversion of Fructose and of Syngas to Mevalonate and Isoprene.
    Diner BA, Fan J, Scotcher MC, Wells DH, Whited GM.
    Appl Environ Microbiol; 2018 Jan 01; 84(1):. PubMed ID: 29054870
    [Abstract] [Full Text] [Related]

  • 3. Engineering Clostridium ljungdahlii as the gas-fermenting cell factory for the production of biofuels and biochemicals.
    Zhang L, Zhao R, Jia D, Jiang W, Gu Y.
    Curr Opin Chem Biol; 2020 Dec 01; 59():54-61. PubMed ID: 32480247
    [Abstract] [Full Text] [Related]

  • 4. Metabolic modeling of synthesis gas fermentation in bubble column reactors.
    Chen J, Gomez JA, Höffner K, Barton PI, Henson MA.
    Biotechnol Biofuels; 2015 Dec 01; 8():89. PubMed ID: 26106448
    [Abstract] [Full Text] [Related]

  • 5. Converting carbon dioxide to butyrate with an engineered strain of Clostridium ljungdahlii.
    Ueki T, Nevin KP, Woodard TL, Lovley DR.
    mBio; 2014 Oct 21; 5(5):e01636-14. PubMed ID: 25336453
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  • 8. Traits of selected Clostridium strains for syngas fermentation to ethanol.
    Martin ME, Richter H, Saha S, Angenent LT.
    Biotechnol Bioeng; 2016 Mar 21; 113(3):531-9. PubMed ID: 26331212
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  • 9. Phage serine integrase-mediated genome engineering for efficient expression of chemical biosynthetic pathway in gas-fermenting Clostridium ljungdahlii.
    Huang H, Chai C, Yang S, Jiang W, Gu Y.
    Metab Eng; 2019 Mar 21; 52():293-302. PubMed ID: 30633974
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  • 13. Maintenance of ATP Homeostasis Triggers Metabolic Shifts in Gas-Fermenting Acetogens.
    Valgepea K, de Souza Pinto Lemgruber R, Meaghan K, Palfreyman RW, Abdalla T, Heijstra BD, Behrendorff JB, Tappel R, Köpke M, Simpson SD, Nielsen LK, Marcellin E.
    Cell Syst; 2017 May 24; 4(5):505-515.e5. PubMed ID: 28527885
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  • 14. Towards improved butanol production through targeted genetic modification of Clostridium pasteurianum.
    Schwarz KM, Grosse-Honebrink A, Derecka K, Rotta C, Zhang Y, Minton NP.
    Metab Eng; 2017 Mar 24; 40():124-137. PubMed ID: 28119139
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  • 15. Metabolic engineering of Clostridium ljungdahlii for the production of hexanol and butanol from CO2 and H2.
    Lauer I, Philipps G, Jennewein S.
    Microb Cell Fact; 2022 May 14; 21(1):85. PubMed ID: 35568911
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  • 16. Pooled CRISPR Interference Screening Identifies Crucial Transcription Factors in Gas-Fermenting Clostridium ljungdahlii.
    Zhang H, Feng H, Xing XH, Jiang W, Zhang C, Gu Y.
    ACS Synth Biol; 2024 Jun 21; 13(6):1893-1905. PubMed ID: 38825826
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  • 17. Incorporating hydrodynamics into spatiotemporal metabolic models of bubble column gas fermentation.
    Li X, Griffin D, Li X, Henson MA.
    Biotechnol Bioeng; 2019 Jan 21; 116(1):28-40. PubMed ID: 30267585
    [Abstract] [Full Text] [Related]

  • 18. Clostridium ljungdahlii represents a microbial production platform based on syngas.
    Köpke M, Held C, Hujer S, Liesegang H, Wiezer A, Wollherr A, Ehrenreich A, Liebl W, Gottschalk G, Dürre P.
    Proc Natl Acad Sci U S A; 2010 Jul 20; 107(29):13087-92. PubMed ID: 20616070
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  • 20. Industrial Acetogenic Biocatalysts: A Comparative Metabolic and Genomic Analysis.
    Bengelsdorf FR, Poehlein A, Linder S, Erz C, Hummel T, Hoffmeister S, Daniel R, Dürre P.
    Front Microbiol; 2016 Jul 20; 7():1036. PubMed ID: 27458439
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