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Journal Abstract Search

403 related items for PubMed ID: 25763625

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  • 6. Cuticular wax biosynthesis is positively regulated by WRINKLED4, an AP2/ERF-type transcription factor, in Arabidopsis stems.
    Park CS, Go YS, Suh MC.
    Plant J; 2016 Oct; 88(2):257-270. PubMed ID: 27337244
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  • 8. Diurnal Regulation of Plant Epidermal Wax Synthesis through Antagonistic Roles of the Transcription Factors SPL9 and DEWAX.
    Li RJ, Li LM, Liu XL, Kim JC, Jenks MA, Lü S.
    Plant Cell; 2019 Nov; 31(11):2711-2733. PubMed ID: 31484683
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  • 9. Characterization of glycosylphosphatidylinositol-anchored lipid transfer protein 2 (LTPG2) and overlapping function between LTPG/LTPG1 and LTPG2 in cuticular wax export or accumulation in Arabidopsis thaliana.
    Kim H, Lee SB, Kim HJ, Min MK, Hwang I, Suh MC.
    Plant Cell Physiol; 2012 Aug; 53(8):1391-403. PubMed ID: 22891199
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  • 10. The SHINE clade of AP2 domain transcription factors activates wax biosynthesis, alters cuticle properties, and confers drought tolerance when overexpressed in Arabidopsis.
    Aharoni A, Dixit S, Jetter R, Thoenes E, van Arkel G, Pereira A.
    Plant Cell; 2004 Sep; 16(9):2463-80. PubMed ID: 15319479
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  • 11. Histone H2B monoubiquitination is involved in the regulation of cutin and wax composition in Arabidopsis thaliana.
    Ménard R, Verdier G, Ors M, Erhardt M, Beisson F, Shen WH.
    Plant Cell Physiol; 2014 Feb; 55(2):455-66. PubMed ID: 24319075
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  • 13. The F-Box Protein SAGL1 and ECERIFERUM3 Regulate Cuticular Wax Biosynthesis in Response to Changes in Humidity in Arabidopsis.
    Kim H, Yu SI, Jung SH, Lee BH, Suh MC.
    Plant Cell; 2019 Sep; 31(9):2223-2240. PubMed ID: 31320482
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  • 14. Overexpression of Arabidopsis MYB96 confers drought resistance in Camelina sativa via cuticular wax accumulation.
    Lee SB, Kim H, Kim RJ, Suh MC.
    Plant Cell Rep; 2014 Sep; 33(9):1535-46. PubMed ID: 24880908
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  • 15. Yellow nutsedge WRI4-like gene improves drought tolerance in Arabidopsis thaliana by promoting cuticular wax biosynthesis.
    Cheng C, Hu S, Han Y, Xia D, Huang BL, Wu W, Hussain J, Zhang X, Huang B.
    BMC Plant Biol; 2020 Oct 31; 20(1):498. PubMed ID: 33129252
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  • 16. Brassica napus BnaC9.DEWAX1 Negatively Regulates Wax Biosynthesis via Transcriptional Suppression of BnCER1-2.
    Wang S, Bai C, Luo N, Jiang Y, Wang Y, Liu Y, Chen C, Wang Y, Gan Q, Jin S, Ni Y.
    Int J Mol Sci; 2023 Feb 21; 24(5):. PubMed ID: 36901718
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  • 17. Overexpression of Arabidopsis ECERIFERUM1 promotes wax very-long-chain alkane biosynthesis and influences plant response to biotic and abiotic stresses.
    Bourdenx B, Bernard A, Domergue F, Pascal S, Léger A, Roby D, Pervent M, Vile D, Haslam RP, Napier JA, Lessire R, Joubès J.
    Plant Physiol; 2011 May 21; 156(1):29-45. PubMed ID: 21386033
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  • 18. Structure and Biosynthesis of Branched Wax Compounds on Wild Type and Wax Biosynthesis Mutants of Arabidopsis thaliana.
    Busta L, Jetter R.
    Plant Cell Physiol; 2017 Jun 01; 58(6):1059-1074. PubMed ID: 28407124
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  • 19. Three Fatty Acyl-Coenzyme A Reductases, BdFAR1, BdFAR2 and BdFAR3, are Involved in Cuticular Wax Primary Alcohol Biosynthesis in Brachypodium distachyon.
    Wang Y, Sun Y, You Q, Luo W, Wang C, Zhao S, Chai G, Li T, Shi X, Li C, Jetter R, Wang Z.
    Plant Cell Physiol; 2018 Mar 01; 59(3):527-543. PubMed ID: 29329458
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  • 20. Cuticle ultrastructure, cuticular lipid composition, and gene expression in hypoxia-stressed Arabidopsis stems and leaves.
    Kim H, Choi D, Suh MC.
    Plant Cell Rep; 2017 Jun 01; 36(6):815-827. PubMed ID: 28280927
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