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Journal Abstract Search

390 related items for PubMed ID: 30367178

  • 21. Short-term and continuing stresses differentially interplay with multiple hormones to regulate plant survival and growth.
    Yang C, Liu J, Dong X, Cai Z, Tian W, Wang X.
    Mol Plant; 2014 May; 7(5):841-55. PubMed ID: 24499771
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  • 22. The Energy-Signaling Hub SnRK1 Is Important for Sucrose-Induced Hypocotyl Elongation.
    Simon NML, Kusakina J, Fernández-López Á, Chembath A, Belbin FE, Dodd AN.
    Plant Physiol; 2018 Feb; 176(2):1299-1310. PubMed ID: 29114081
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  • 23. Coordinated Regulation of Hypocotyl Cell Elongation by Light and Ethylene through a Microtubule Destabilizing Protein.
    Ma Q, Wang X, Sun J, Mao T.
    Plant Physiol; 2018 Jan; 176(1):678-690. PubMed ID: 29167353
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  • 24. The MED7 subunit paralogs of Mediator function redundantly in development of etiolated seedlings in Arabidopsis.
    Kumar KRR, Blomberg J, Björklund S.
    Plant J; 2018 Nov; 96(3):578-594. PubMed ID: 30058106
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  • 27. Arabidopsis SMALL AUXIN UP RNA63 promotes hypocotyl and stamen filament elongation.
    Chae K, Isaacs CG, Reeves PH, Maloney GS, Muday GK, Nagpal P, Reed JW.
    Plant J; 2012 Aug; 71(4):684-97. PubMed ID: 22507274
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  • 29. Thermoperiodic control of hypocotyl elongation depends on auxin-induced ethylene signaling that controls downstream PHYTOCHROME INTERACTING FACTOR3 activity.
    Bours R, Kohlen W, Bouwmeester HJ, van der Krol A.
    Plant Physiol; 2015 Feb; 167(2):517-30. PubMed ID: 25516603
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  • 30. Ethylene Regulates the Arabidopsis Microtubule-Associated Protein WAVE-DAMPENED2-LIKE5 in Etiolated Hypocotyl Elongation.
    Sun J, Ma Q, Mao T.
    Plant Physiol; 2015 Sep; 169(1):325-37. PubMed ID: 26134166
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  • 31. Root Gravitropism Is Regulated by a Crosstalk between para-Aminobenzoic Acid, Ethylene, and Auxin.
    Nziengui H, Lasok H, Kochersperger P, Ruperti B, Rébeillé F, Palme K, Ditengou FA.
    Plant Physiol; 2018 Nov; 178(3):1370-1389. PubMed ID: 30275058
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  • 32. Boron deficiency inhibits root cell elongation via an ethylene/auxin/ROS-dependent pathway in Arabidopsis seedlings.
    Camacho-Cristóbal JJ, Martín-Rejano EM, Herrera-Rodríguez MB, Navarro-Gochicoa MT, Rexach J, González-Fontes A.
    J Exp Bot; 2015 Jul; 66(13):3831-40. PubMed ID: 25922480
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  • 33. The Arabidopsis RLCK VI_A2 Kinase Controls Seedling and Plant Growth in Parallel with Gibberellin.
    Valkai I, Kénesi E, Domonkos I, Ayaydin F, Tarkowská D, Strnad M, Faragó A, Bodai L, Fehér A.
    Int J Mol Sci; 2020 Oct 01; 21(19):. PubMed ID: 33019674
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  • 34. Auxin activates KAT1 and KAT2, two K+-channel genes expressed in seedlings of Arabidopsis thaliana.
    Philippar K, Ivashikina N, Ache P, Christian M, Lüthen H, Palme K, Hedrich R.
    Plant J; 2004 Mar 01; 37(6):815-27. PubMed ID: 14996216
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  • 37. Elongation-related functions of LEAFY COTYLEDON1 during the development of Arabidopsis thaliana.
    Junker A, Mönke G, Rutten T, Keilwagen J, Seifert M, Thi TM, Renou JP, Balzergue S, Viehöver P, Hähnel U, Ludwig-Müller J, Altschmied L, Conrad U, Weisshaar B, Bäumlein H.
    Plant J; 2012 Aug 01; 71(3):427-42. PubMed ID: 22429691
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  • 39. Characterization of a novel putative zinc finger gene MIF1: involvement in multiple hormonal regulation of Arabidopsis development.
    Hu W, Ma H.
    Plant J; 2006 Feb 01; 45(3):399-422. PubMed ID: 16412086
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  • 40. Multilevel interactions between ethylene and auxin in Arabidopsis roots.
    Stepanova AN, Yun J, Likhacheva AV, Alonso JM.
    Plant Cell; 2007 Jul 01; 19(7):2169-85. PubMed ID: 17630276
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