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289 related items for PubMed ID: 31492836

  • 1. Polyunsaturated fatty acid production by Yarrowia lipolytica employing designed myxobacterial PUFA synthases.
    Gemperlein K, Dietrich D, Kohlstedt M, Zipf G, Bernauer HS, Wittmann C, Wenzel SC, Müller R.
    Nat Commun; 2019 Sep 06; 10(1):4055. PubMed ID: 31492836
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  • 2. Metabolic engineering of Pseudomonas putida for production of docosahexaenoic acid based on a myxobacterial PUFA synthase.
    Gemperlein K, Zipf G, Bernauer HS, Müller R, Wenzel SC.
    Metab Eng; 2016 Jan 06; 33():98-108. PubMed ID: 26617065
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  • 3. Refactoring the architecture of a polyketide gene cluster enhances docosahexaenoic acid production in Yarrowia lipolytica through improved expression and genetic stability.
    Dietrich D, Jovanovic-Gasovic S, Cao P, Kohlstedt M, Wittmann C.
    Microb Cell Fact; 2023 Sep 29; 22(1):199. PubMed ID: 37773137
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  • 5. Tandem acyl carrier protein domains in polyunsaturated fatty acid synthases.
    Jiang H, Rajski SR, Shen B.
    Methods Enzymol; 2009 Sep 29; 459():79-96. PubMed ID: 19362636
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  • 7. Production of omega-3 eicosapentaenoic acid by metabolic engineering of Yarrowia lipolytica.
    Xue Z, Sharpe PL, Hong SP, Yadav NS, Xie D, Short DR, Damude HG, Rupert RA, Seip JE, Wang J, Pollak DW, Bostick MW, Bosak MD, Macool DJ, Hollerbach DH, Zhang H, Arcilla DM, Bledsoe SA, Croker K, McCord EF, Tyreus BD, Jackson EN, Zhu Q.
    Nat Biotechnol; 2013 Aug 29; 31(8):734-40. PubMed ID: 23873085
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  • 8. Recent advances in biotechnological production of polyunsaturated fatty acids by Yarrowia lipolytica.
    Jia YL, Wang LR, Zhang ZX, Gu Y, Sun XM.
    Crit Rev Food Sci Nutr; 2022 Aug 29; 62(32):8920-8934. PubMed ID: 34120537
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  • 9. Sustainable source of omega-3 eicosapentaenoic acid from metabolically engineered Yarrowia lipolytica: from fundamental research to commercial production.
    Xie D, Jackson EN, Zhu Q.
    Appl Microbiol Biotechnol; 2015 Feb 29; 99(4):1599-610. PubMed ID: 25567511
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  • 10. Optimization of cyclopropane fatty acids production in Yarrowia lipolytica.
    Czerwiec Q, Idrissitaghki A, Imatoukene N, Nonus M, Thomasset B, Nicaud JM, Rossignol T.
    Yeast; 2019 Mar 29; 36(3):143-151. PubMed ID: 30677185
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  • 11. Recent advances in functional analysis of polyunsaturated fatty acid synthases.
    Hayashi S, Satoh Y, Ogasawara Y, Dairi T.
    Curr Opin Chem Biol; 2020 Dec 29; 59():30-36. PubMed ID: 32442859
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  • 12. Universal and unique strategies for the production of polyunsaturated fatty acids in industrial oleaginous microorganisms.
    Yan CX, Zhang Y, Yang WQ, Ma W, Sun XM, Huang H.
    Biotechnol Adv; 2024 Dec 29; 70():108298. PubMed ID: 38048920
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  • 16. Ketoacylsynthase Domains of a Polyunsaturated Fatty Acid Synthase in Thraustochytrium sp. Strain ATCC 26185 Can Effectively Function as Stand-Alone Enzymes in Escherichia coli.
    Xie X, Meesapyodsuk D, Qiu X.
    Appl Environ Microbiol; 2017 May 01; 83(9):. PubMed ID: 28213537
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  • 17. CRISPR/Cas9-mediated ablation of elovl2 in Atlantic salmon (Salmo salar L.) inhibits elongation of polyunsaturated fatty acids and induces Srebp-1 and target genes.
    Datsomor AK, Zic N, Li K, Olsen RE, Jin Y, Vik JO, Edvardsen RB, Grammes F, Wargelius A, Winge P.
    Sci Rep; 2019 May 17; 9(1):7533. PubMed ID: 31101849
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  • 18. Characterization and Application of Marine Microbial Omega-3 Polyunsaturated Fatty Acid Synthesis.
    Allemann MN, Allen EE.
    Methods Enzymol; 2018 May 17; 605():3-32. PubMed ID: 29909829
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  • 19. Whole genome analysis and elucidation of docosahexaenoic acid (DHA) biosynthetic pathway in Aurantiochytrium sp. SW1.
    Prabhakaran P, Raethong N, Nazir Y, Halim H, Yang W, Vongsangnak W, Abdul Hamid A, Song Y.
    Gene; 2022 Dec 20; 846():146850. PubMed ID: 36044942
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  • 20. Control Mechanism for cis Double-Bond Formation by Polyunsaturated Fatty-Acid Synthases.
    Hayashi S, Satoh Y, Ogasawara Y, Maruyama C, Hamano Y, Ujihara T, Dairi T.
    Angew Chem Int Ed Engl; 2019 Feb 18; 58(8):2326-2330. PubMed ID: 30623559
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