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Journal Abstract Search

149 related items for PubMed ID: 26063537

  • 1. Transient silencing of the KASII genes is feasible in Nicotiana benthamiana for metabolic engineering of wax ester composition.
    Aslan S, Hofvander P, Dutta P, Sitbon F, Sun C.
    Sci Rep; 2015 Jun 11; 5():11213. PubMed ID: 26063537
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  • 2. Genetic enhancement of palmitic acid accumulation in cotton seed oil through RNAi down-regulation of ghKAS2 encoding β-ketoacyl-ACP synthase II (KASII).
    Liu Q, Wu M, Zhang B, Shrestha P, Petrie J, Green AG, Singh SP.
    Plant Biotechnol J; 2017 Jan 11; 15(1):132-143. PubMed ID: 27381745
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  • 3. Modulating seed beta-ketoacyl-acyl carrier protein synthase II level converts the composition of a temperate seed oil to that of a palm-like tropical oil.
    Pidkowich MS, Nguyen HT, Heilmann I, Ischebeck T, Shanklin J.
    Proc Natl Acad Sci U S A; 2007 Mar 13; 104(11):4742-7. PubMed ID: 17360594
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  • 5. Transcriptomic and reverse genetic analyses of branched-chain fatty acid and acyl sugar production in Solanum pennellii and Nicotiana benthamiana.
    Slocombe SP, Schauvinhold I, McQuinn RP, Besser K, Welsby NA, Harper A, Aziz N, Li Y, Larson TR, Giovannoni J, Dixon RA, Broun P.
    Plant Physiol; 2008 Dec 13; 148(4):1830-46. PubMed ID: 18931142
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  • 6. Transcriptional activation of Brassica napus β-ketoacyl-ACP synthase II with an engineered zinc finger protein transcription factor.
    Gupta M, DeKelver RC, Palta A, Clifford C, Gopalan S, Miller JC, Novak S, Desloover D, Gachotte D, Connell J, Flook J, Patterson T, Robbins K, Rebar EJ, Gregory PD, Urnov FD, Petolino JF.
    Plant Biotechnol J; 2012 Sep 13; 10(7):783-91. PubMed ID: 22520333
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  • 7. Contribution of omega-3 fatty acid desaturase and 3-ketoacyl-ACP synthase II (KASII) genes in the modulation of glycerolipid fatty acid composition during cold acclimation in birch leaves.
    Martz F, Kiviniemi S, Palva TE, Sutinen ML.
    J Exp Bot; 2006 Sep 13; 57(4):897-909. PubMed ID: 16473891
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  • 9. Wax esters of different compositions produced via engineering of leaf chloroplast metabolism in Nicotiana benthamiana.
    Aslan S, Sun C, Leonova S, Dutta P, Dörmann P, Domergue F, Stymne S, Hofvander P.
    Metab Eng; 2014 Sep 13; 25():103-12. PubMed ID: 25038447
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  • 13. Fatty acid synthesis. Role of active site histidines and lysine in Cys-His-His-type beta-ketoacyl-acyl carrier protein synthases.
    von Wettstein-Knowles P, Olsen JG, McGuire KA, Henriksen A.
    FEBS J; 2006 Feb 13; 273(4):695-710. PubMed ID: 16441657
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  • 14. Tailoring the composition of novel wax esters in the seeds of transgenic Camelina sativa through systematic metabolic engineering.
    Ruiz-Lopez N, Broughton R, Usher S, Salas JJ, Haslam RP, Napier JA, Beaudoin F.
    Plant Biotechnol J; 2017 Jul 13; 15(7):837-849. PubMed ID: 27990737
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  • 15. Wax Crystal-Sparse Leaf 4, encoding a β-ketoacyl-coenzyme A synthase 6, is involved in rice cuticular wax accumulation.
    Gan L, Zhu S, Zhao Z, Liu L, Wang X, Zhang Z, Zhang X, Wang J, Wang J, Guo X, Wan J.
    Plant Cell Rep; 2017 Oct 13; 36(10):1655-1666. PubMed ID: 28733852
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  • 17. β-Ketoacyl-acyl Carrier Protein Synthase I (KASI) Plays Crucial Roles in the Plant Growth and Fatty Acids Synthesis in Tobacco.
    Yang T, Xu R, Chen J, Liu A.
    Int J Mol Sci; 2016 Aug 08; 17(8):. PubMed ID: 27509494
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  • 18. Reorganization of Acyl Flux through the Lipid Metabolic Network in Oil-Accumulating Tobacco Leaves.
    Zhou XR, Bhandari S, Johnson BS, Kotapati HK, Allen DK, Vanhercke T, Bates PD.
    Plant Physiol; 2020 Feb 08; 182(2):739-755. PubMed ID: 31792147
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