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Journal Abstract Search

177 related items for PubMed ID: 37831901

  • 1. Small RNA profiling reveals that an ovule-specific microRNA, cja-miR5179, targets a B-class MADS-box gene in Camellia japonica.
    Ma X, Nie Z, Huang H, Yan C, Li S, Hu Z, Wang Y, Yin H.
    Ann Bot; 2023 Nov 30; 132(5):1007-1020. PubMed ID: 37831901
    [Abstract] [Full Text] [Related]

  • 2. Functional and evolutionary analysis of the AP1/SEP/AGL6 superclade of MADS-box genes in the basal eudicot Epimedium sagittatum.
    Sun W, Huang W, Li Z, Song C, Liu D, Liu Y, Hayward A, Liu Y, Huang H, Wang Y.
    Ann Bot; 2014 Mar 30; 113(4):653-68. PubMed ID: 24532606
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  • 3. Genome-Wide Analysis of MADS-Box Gene Family Reveals CjSTK as a Key Regulator of Seed Abortion in Camellia japonica.
    Yu Y, Chu X, Ma X, Hu Z, Wang M, Li J, Yin H.
    Int J Mol Sci; 2024 May 25; 25(11):. PubMed ID: 38891958
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  • 4. Interactions among proteins of floral MADS-box genes in basal eudicots: implications for evolution of the regulatory network for flower development.
    Liu C, Zhang J, Zhang N, Shan H, Su K, Zhang J, Meng Z, Kong H, Chen Z.
    Mol Biol Evol; 2010 Jul 25; 27(7):1598-611. PubMed ID: 20147438
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  • 5. Functional diversification of B MADS-box homeotic regulators of flower development: Adaptive evolution in protein-protein interaction domains after major gene duplication events.
    Hernández-Hernández T, Martínez-Castilla LP, Alvarez-Buylla ER.
    Mol Biol Evol; 2007 Feb 25; 24(2):465-81. PubMed ID: 17135333
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  • 6. Genome-wide analysis of the MADS-box gene family in Lonicera japonica and a proposed floral organ identity model.
    Lin Y, Qi X, Wan Y, Chen Z, Fang H, Liang C.
    BMC Genomics; 2023 Aug 08; 24(1):447. PubMed ID: 37553575
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  • 7. Expression of floral MADS-box genes in basal angiosperms: implications for the evolution of floral regulators.
    Kim S, Koh J, Yoo MJ, Kong H, Hu Y, Ma H, Soltis PS, Soltis DE.
    Plant J; 2005 Sep 08; 43(5):724-44. PubMed ID: 16115069
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  • 11. CjPLE, a PLENA-like gene, is a potential regulator of fruit development via activating the FRUITFUL homolog in Camellia.
    Lyu T, Fan Z, Yang W, Yan C, Hu Z, Li X, Li J, Yin H.
    J Exp Bot; 2019 Jun 28; 70(12):3153-3164. PubMed ID: 30949672
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  • 12. Toward the analysis of the petunia MADS box gene family by reverse and forward transposon insertion mutagenesis approaches: B, C, and D floral organ identity functions require SEPALLATA-like MADS box genes in petunia.
    Vandenbussche M, Zethof J, Souer E, Koes R, Tornielli GB, Pezzotti M, Ferrario S, Angenent GC, Gerats T.
    Plant Cell; 2003 Nov 28; 15(11):2680-93. PubMed ID: 14576291
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  • 13. Multiple and integrated functions of floral C-class MADS-box genes in flower and fruit development of Physalis floridana.
    Zhao J, Gong P, Liu H, Zhang M, He C.
    Plant Mol Biol; 2021 Sep 28; 107(1-2):101-116. PubMed ID: 34424500
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  • 14. Analysis of the floral MADS-box genes from monocotyledonous Trilliaceae species indicates the involvement of SEPALLATA3-like genes in sepal-petal differentiation.
    Kubota S, Kanno A.
    Plant Sci; 2015 Dec 28; 241():266-76. PubMed ID: 26706077
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  • 17. C/D class MADS box genes from two monocots, orchid (Oncidium Gower Ramsey) and lily (Lilium longiflorum), exhibit different effects on floral transition and formation in Arabidopsis thaliana.
    Hsu HF, Hsieh WP, Chen MK, Chang YY, Yang CH.
    Plant Cell Physiol; 2010 Jun 28; 51(6):1029-45. PubMed ID: 20395287
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  • 18. MADS-box genes and floral development: the dark side.
    Heijmans K, Morel P, Vandenbussche M.
    J Exp Bot; 2012 Sep 28; 63(15):5397-404. PubMed ID: 22915743
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  • 20. Live and let die - the B(sister) MADS-box gene OsMADS29 controls the degeneration of cells in maternal tissues during seed development of rice (Oryza sativa).
    Yang X, Wu F, Lin X, Du X, Chong K, Gramzow L, Schilling S, Becker A, Theißen G, Meng Z.
    PLoS One; 2012 Sep 28; 7(12):e51435. PubMed ID: 23251532
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