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Journal Abstract Search

192 related items for PubMed ID: 21106006

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  • 2. Function of the alpha subunit of rice heterotrimeric G protein in brassinosteroid signaling.
    Oki K, Inaba N, Kitagawa K, Fujioka S, Kitano H, Fujisawa Y, Kato H, Iwasaki Y.
    Plant Cell Physiol; 2009 Jan; 50(1):161-72. PubMed ID: 19036785
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  • 4. DWARF AND LOW-TILLERING, a new member of the GRAS family, plays positive roles in brassinosteroid signaling in rice.
    Tong H, Jin Y, Liu W, Li F, Fang J, Yin Y, Qian Q, Zhu L, Chu C.
    Plant J; 2009 Jun; 58(5):803-16. PubMed ID: 19220793
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  • 7. BRASSINOSTEROID UPREGULATED1, encoding a helix-loop-helix protein, is a novel gene involved in brassinosteroid signaling and controls bending of the lamina joint in rice.
    Tanaka A, Nakagawa H, Tomita C, Shimatani Z, Ohtake M, Nomura T, Jiang CJ, Dubouzet JG, Kikuchi S, Sekimoto H, Yokota T, Asami T, Kamakura T, Mori M.
    Plant Physiol; 2009 Oct; 151(2):669-80. PubMed ID: 19648232
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  • 9. Regulation of brassinosteroid responses by phytochrome B in rice.
    Jeong DH, Lee S, Kim SL, Hwang I, An G.
    Plant Cell Environ; 2007 May; 30(5):590-9. PubMed ID: 17407537
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  • 10. Involvement of brassinosteroid signals in the floral-induction network of Arabidopsis.
    Li J, Li Y, Chen S, An L.
    J Exp Bot; 2010 Oct; 61(15):4221-30. PubMed ID: 20685730
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  • 11. A brassinolide-suppressed rice MADS-box transcription factor, OsMDP1, has a negative regulatory role in BR signaling.
    Duan K, Li L, Hu P, Xu SP, Xu ZH, Xue HW.
    Plant J; 2006 Aug; 47(4):519-31. PubMed ID: 16827922
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  • 12. BIN2, a new brassinosteroid-insensitive locus in Arabidopsis.
    Li J, Nam KH, Vafeados D, Chory J.
    Plant Physiol; 2001 Sep; 127(1):14-22. PubMed ID: 11553730
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  • 13. Systematic secretome analyses of rice leaf and seed callus suspension-cultured cells: workflow development and establishment of high-density two-dimensional gel reference maps.
    Jung YH, Jeong SH, Kim SH, Singh R, Lee JE, Cho YS, Agrawal GK, Rakwal R, Jwa NS.
    J Proteome Res; 2008 Dec; 7(12):5187-210. PubMed ID: 18986194
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  • 14. A mammalian steroid action inhibitor spironolactone retards plant growth by inhibition of brassinosteroid action and induces light-induced gene expression in the dark.
    Asami T, Oh K, Jikumaru Y, Shimada Y, Kaneko I, Nakano T, Takatsuto S, Fujioka S, Yoshida S.
    J Steroid Biochem Mol Biol; 2004 Jun; 91(1-2):41-7. PubMed ID: 15261306
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  • 15. Isolation and characterization of a rice dwarf mutant with a defect in brassinosteroid biosynthesis.
    Mori M, Nomura T, Ooka H, Ishizaka M, Yokota T, Sugimoto K, Okabe K, Kajiwara H, Satoh K, Yamamoto K, Hirochika H, Kikuchi S.
    Plant Physiol; 2002 Nov; 130(3):1152-61. PubMed ID: 12427982
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  • 16. Engineering OsBAK1 gene as a molecular tool to improve rice architecture for high yield.
    Li D, Wang L, Wang M, Xu YY, Luo W, Liu YJ, Xu ZH, Li J, Chong K.
    Plant Biotechnol J; 2009 Oct; 7(8):791-806. PubMed ID: 19754838
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  • 17. Rice CYP734As function as multisubstrate and multifunctional enzymes in brassinosteroid catabolism.
    Sakamoto T, Kawabe A, Tokida-Segawa A, Shimizu B, Takatsuto S, Shimada Y, Fujioka S, Mizutani M.
    Plant J; 2011 Jul; 67(1):1-12. PubMed ID: 21418356
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  • 18. Brassinosteroids control meristem size by promoting cell cycle progression in Arabidopsis roots.
    González-García MP, Vilarrasa-Blasi J, Zhiponova M, Divol F, Mora-García S, Russinova E, Caño-Delgado AI.
    Development; 2011 Mar; 138(5):849-59. PubMed ID: 21270057
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  • 20. Proteome approach to characterize the methylmalonate-semialdehyde dehydrogenase that is regulated by gibberellin.
    Tanaka N, Takahashi H, Kitano H, Matsuoka M, Akao S, Uchimiya H, Komatsu S.
    J Proteome Res; 2005 Mar; 4(5):1575-82. PubMed ID: 16212409
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