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Journal Abstract Search

398 related items for PubMed ID: 25788404

  • 1. Building terpene production platforms in yeast.
    Zhuang X, Chappell J.
    Biotechnol Bioeng; 2015 Sep; 112(9):1854-64. PubMed ID: 25788404
    [Abstract] [Full Text] [Related]

  • 2. Enhancement of farnesyl diphosphate pool as direct precursor of sesquiterpenes through metabolic engineering of the mevalonate pathway in Saccharomyces cerevisiae.
    Asadollahi MA, Maury J, Schalk M, Clark A, Nielsen J.
    Biotechnol Bioeng; 2010 May 01; 106(1):86-96. PubMed ID: 20091767
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  • 4. Enhancing fluxes through the mevalonate pathway in Saccharomyces cerevisiae by engineering the HMGR and β-alanine metabolism.
    Lu S, Zhou C, Guo X, Du Z, Cheng Y, Wang Z, He X.
    Microb Biotechnol; 2022 Aug 01; 15(8):2292-2306. PubMed ID: 35531990
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  • 6. Significantly Enhanced Production of Patchoulol in Metabolically Engineered Saccharomyces cerevisiae.
    Ma B, Liu M, Li ZH, Tao X, Wei DZ, Wang FQ.
    J Agric Food Chem; 2019 Aug 07; 67(31):8590-8598. PubMed ID: 31287301
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  • 7. A squalene synthase protein degradation method for improved sesquiterpene production in Saccharomyces cerevisiae.
    Peng B, Plan MR, Chrysanthopoulos P, Hodson MP, Nielsen LK, Vickers CE.
    Metab Eng; 2017 Jan 07; 39():209-219. PubMed ID: 27939849
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  • 8. Metabolic engineering of Saccharomyces cerevisiae for linalool production.
    Amiri P, Shahpiri A, Asadollahi MA, Momenbeik F, Partow S.
    Biotechnol Lett; 2016 Mar 07; 38(3):503-8. PubMed ID: 26614300
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  • 10. Engineering Triterpene and Methylated Triterpene Production in Plants Provides Biochemical and Physiological Insights into Terpene Metabolism.
    Jiang Z, Kempinski C, Bush CJ, Nybo SE, Chappell J.
    Plant Physiol; 2016 Feb 07; 170(2):702-16. PubMed ID: 26603654
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  • 13. Engineering triterpene metabolism in the oilseed of Arabidopsis thaliana.
    Kempinski C, Chappell J.
    Plant Biotechnol J; 2019 Feb 07; 17(2):386-396. PubMed ID: 29979486
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  • 14. Progress in terpene synthesis strategies through engineering of Saccharomyces cerevisiae.
    Paramasivan K, Mutturi S.
    Crit Rev Biotechnol; 2017 Dec 07; 37(8):974-989. PubMed ID: 28427280
    [Abstract] [Full Text] [Related]

  • 15. Farnesol production from Escherichia coli by harnessing the exogenous mevalonate pathway.
    Wang C, Yoon SH, Shah AA, Chung YR, Kim JY, Choi ES, Keasling JD, Kim SW.
    Biotechnol Bioeng; 2010 Oct 15; 107(3):421-9. PubMed ID: 20552672
    [Abstract] [Full Text] [Related]

  • 16. Machine-learning guided elucidation of contribution of individual steps in the mevalonate pathway and construction of a yeast platform strain for terpenoid production.
    Mukherjee M, Blair RH, Wang ZQ.
    Metab Eng; 2022 Nov 15; 74():139-149. PubMed ID: 36341776
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  • 17. Improved squalene production through increasing lipid contents in Saccharomyces cerevisiae.
    Wei LJ, Kwak S, Liu JJ, Lane S, Hua Q, Kweon DH, Jin YS.
    Biotechnol Bioeng; 2018 Jul 15; 115(7):1793-1800. PubMed ID: 29573412
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  • 18. Metabolic engineering of Saccharomyces cerevisiae for enhanced taxadiene production.
    Karaca H, Kaya M, Kapkac HA, Levent S, Ozkay Y, Ozan SD, Nielsen J, Krivoruchko A.
    Microb Cell Fact; 2024 Sep 06; 23(1):241. PubMed ID: 39242505
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  • 19. Metabolic engineering Saccharomyces cerevisiae for de novo production of the sesquiterpenoid (+)-nootkatone.
    Meng X, Liu H, Xu W, Zhang W, Wang Z, Liu W.
    Microb Cell Fact; 2020 Feb 03; 19(1):21. PubMed ID: 32013959
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  • 20. Primary and Secondary Metabolic Effects of a Key Gene Deletion (ΔYPL062W) in Metabolically Engineered Terpenoid-Producing Saccharomyces cerevisiae.
    Chen Y, Wang Y, Liu M, Qu J, Yao M, Li B, Ding M, Liu H, Xiao W, Yuan Y.
    Appl Environ Microbiol; 2019 Apr 01; 85(7):. PubMed ID: 30683746
    [Abstract] [Full Text] [Related]

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