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Journal Abstract Search

114 related items for PubMed ID: 39293741

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  • 3. Role of TAF15b in transcriptional regulation of autonomous pathway for flowering.
    Eom H, Lee I.
    Plant Signal Behav; 2018; 13(7):e1471300. PubMed ID: 29944459
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  • 4. A Molecular switch for FLOWERING LOCUS C activation determines flowering time in Arabidopsis.
    Shen L, Zhang Y, Sawettalake N.
    Plant Cell; 2022 Feb 03; 34(2):818-833. PubMed ID: 34850922
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  • 5. C-terminal domain phosphatase-like 1 (CPL1) is involved in floral transition in Arabidopsis.
    Yuan C, Xu J, Chen Q, Liu Q, Hu Y, Jin Y, Qin C.
    BMC Genomics; 2021 Sep 05; 22(1):642. PubMed ID: 34482814
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  • 7. Floral regulators FLC and SOC1 directly regulate expression of the B3-type transcription factor TARGET OF FLC AND SVP 1 at the Arabidopsis shoot apex via antagonistic chromatin modifications.
    Richter R, Kinoshita A, Vincent C, Martinez-Gallegos R, Gao H, van Driel AD, Hyun Y, Mateos JL, Coupland G.
    PLoS Genet; 2019 Apr 05; 15(4):e1008065. PubMed ID: 30946745
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  • 8. CPL2 and CPL3 act redundantly in FLC activation and flowering time regulation in Arabidopsis.
    Zhang Y, Shen L.
    Plant Signal Behav; 2022 Dec 31; 17(1):2026614. PubMed ID: 35112651
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  • 9. The Arabidopsis Paf1c complex component CDC73 participates in the modification of FLOWERING LOCUS C chromatin.
    Yu X, Michaels SD.
    Plant Physiol; 2010 Jul 31; 153(3):1074-84. PubMed ID: 20463090
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  • 10. SUPPRESSOR OF FRIGIDA3 encodes a nuclear ACTIN-RELATED PROTEIN6 required for floral repression in Arabidopsis.
    Choi K, Kim S, Kim SY, Kim M, Hyun Y, Lee H, Choe S, Kim SG, Michaels S, Lee I.
    Plant Cell; 2005 Oct 31; 17(10):2647-60. PubMed ID: 16155178
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  • 11. Arabidopsis inositol polyphosphate multikinase delays flowering time through mediating transcriptional activation of FLOWERING LOCUS C.
    Sang S, Chen Y, Yang Q, Wang P.
    J Exp Bot; 2017 Dec 16; 68(21-22):5787-5800. PubMed ID: 29161428
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  • 12. MED8 regulates floral transition in Arabidopsis by interacting with FPA.
    Yuan C, Hu Y, Liu Q, Xu J, Zhou W, Yu H, Shen L, Qin C.
    Plant J; 2023 Dec 16; 116(5):1234-1247. PubMed ID: 37565662
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  • 13. Hypomorphic alleles reveal FCA-independent roles for FY in the regulation of FLOWERING LOCUS C.
    Feng W, Jacob Y, Veley KM, Ding L, Yu X, Choe G, Michaels SD.
    Plant Physiol; 2011 Mar 16; 155(3):1425-34. PubMed ID: 21209277
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  • 14. The FRIGIDA complex activates transcription of FLC, a strong flowering repressor in Arabidopsis, by recruiting chromatin modification factors.
    Choi K, Kim J, Hwang HJ, Kim S, Park C, Kim SY, Lee I.
    Plant Cell; 2011 Jan 16; 23(1):289-303. PubMed ID: 21282526
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  • 15. Brassinosteroid Signaling Recruits Histone 3 Lysine-27 Demethylation Activity to FLOWERING LOCUS C Chromatin to Inhibit the Floral Transition in Arabidopsis.
    Li Z, Ou Y, Zhang Z, Li J, He Y.
    Mol Plant; 2018 Sep 10; 11(9):1135-1146. PubMed ID: 29969683
    [Abstract] [Full Text] [Related]

  • 16. Establishment of the winter-annual growth habit via FRIGIDA-mediated histone methylation at FLOWERING LOCUS C in Arabidopsis.
    Jiang D, Gu X, He Y.
    Plant Cell; 2009 Jun 10; 21(6):1733-46. PubMed ID: 19567704
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  • 17. AGAMOUS-LIKE 6 is a floral promoter that negatively regulates the FLC/MAF clade genes and positively regulates FT in Arabidopsis.
    Yoo SK, Wu X, Lee JS, Ahn JH.
    Plant J; 2011 Jan 10; 65(1):62-76. PubMed ID: 21175890
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  • 19. KHZ1 and KHZ2, novel members of the autonomous pathway, repress the splicing efficiency of FLC pre-mRNA in Arabidopsis.
    Yan Z, Shi H, Liu Y, Jing M, Han Y.
    J Exp Bot; 2020 Feb 19; 71(4):1375-1386. PubMed ID: 31701139
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  • 20. MSI4/FVE interacts with CUL4-DDB1 and a PRC2-like complex to control epigenetic regulation of flowering time in Arabidopsis.
    Pazhouhandeh M, Molinier J, Berr A, Genschik P.
    Proc Natl Acad Sci U S A; 2011 Feb 22; 108(8):3430-5. PubMed ID: 21282611
    [Abstract] [Full Text] [Related]

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