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Journal Abstract Search

208 related items for PubMed ID: 19604393

  • 1. Uncovering the Arabidopsis thaliana nectary transcriptome: investigation of differential gene expression in floral nectariferous tissues.
    Kram BW, Xu WW, Carter CJ.
    BMC Plant Biol; 2009 Jul 15; 9():92. PubMed ID: 19604393
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  • 3. Transcriptomic and microstructural analyses in Liriodendron tulipifera Linn. reveal candidate genes involved in nectary development and nectar secretion.
    Liu H, Ma J, Li H.
    BMC Plant Biol; 2019 Dec 02; 19(1):531. PubMed ID: 31791230
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  • 5. Identification of differential gene expression in Brassica rapa nectaries through expressed sequence tag analysis.
    Hampton M, Xu WW, Kram BW, Chambers EM, Ehrnriter JS, Gralewski JH, Joyal T, Carter CJ.
    PLoS One; 2010 Jan 20; 5(1):e8782. PubMed ID: 20098697
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  • 8. Knockdown of MYB305 disrupts nectary starch metabolism and floral nectar production.
    Liu G, Thornburg RW.
    Plant J; 2012 May 20; 70(3):377-88. PubMed ID: 22151247
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  • 10. An integrated transcriptomics and metabolomics analysis of the Cucurbita pepo nectary implicates key modules of primary metabolism involved in nectar synthesis and secretion.
    Solhaug EM, Roy R, Chatt EC, Klinkenberg PM, Mohd-Fadzil NA, Hampton M, Nikolau BJ, Carter CJ.
    Plant Direct; 2019 Feb 20; 3(2):e00120. PubMed ID: 31245763
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  • 11. Floral nectar production and carbohydrate composition and the structure of receptacular nectaries in the invasive plant Bunias orientalis L. (Brassicaceae).
    Denisow B, Masierowska M, Antoń S.
    Protoplasma; 2016 Nov 20; 253(6):1489-1501. PubMed ID: 26560112
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  • 13. The role of alanine synthesis and nitrate-induced nitric oxide production during hypoxia stress in Cucurbita pepo nectaries.
    Solhaug EM, Roy R, Venterea RT, Carter CJ.
    Plant J; 2021 Feb 20; 105(3):580-599. PubMed ID: 33119149
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  • 14. Histochemical, metabolic and ultrastructural changes in leaf patelliform nectaries explain extrafloral nectar synthesis and secretion in Clerodendrum chinense.
    Paul S, Mitra A.
    Ann Bot; 2024 Apr 23; 133(4):621-642. PubMed ID: 38366151
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  • 15. Metabolic and transcriptomic analyses of nectaries reveal differences in the mechanism of nectar production between monocots (Ananas comosus) and dicots (Nicotiana tabacum).
    Göttlinger T, Pirritano M, Simon M, Fuß J, Lohaus G.
    BMC Plant Biol; 2024 Oct 09; 24(1):940. PubMed ID: 39385091
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  • 16. The evolution of floral nectaries in Disa (Orchidaceae: Disinae): recapitulation or diversifying innovation?
    Hobbhahn N, Johnson SD, Bytebier B, Yeung EC, Harder LD.
    Ann Bot; 2013 Nov 09; 112(7):1303-19. PubMed ID: 23997231
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  • 17. Recruitment of CRABS CLAW to promote nectary development within the eudicot clade.
    Lee JY, Baum SF, Oh SH, Jiang CZ, Chen JC, Bowman JL.
    Development; 2005 Nov 09; 132(22):5021-32. PubMed ID: 16236772
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  • 18. Carbohydrate Metabolism and Signaling in Squash Nectaries and Nectar Throughout Floral Maturation.
    Solhaug EM, Johnson E, Carter CJ.
    Plant Physiol; 2019 Aug 09; 180(4):1930-1946. PubMed ID: 31213512
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  • 19. Nectary development in Cleome violacea.
    Carey S, Zenchyzen B, Deneka AJ, Hall JC.
    Front Plant Sci; 2022 Aug 09; 13():1085900. PubMed ID: 36844906
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  • 20. Is nectar reabsorption restricted by the stalk cells of floral and extrafloral nectary trichomes?
    Cardoso-Gustavson P, Davis AR.
    Plant Biol (Stuttg); 2015 Jan 09; 17(1):134-46. PubMed ID: 24987788
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