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Journal Abstract Search

236 related items for PubMed ID: 22872496

  • 1.
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  • 2. Transgenic Tobacco Overexpressing Tea cDNA Encoding Dihydroflavonol 4-Reductase and Anthocyanidin Reductase Induces Early Flowering and Provides Biotic Stress Tolerance.
    Kumar V, Nadda G, Kumar S, Yadav SK.
    PLoS One; 2013; 8(6):e65535. PubMed ID: 23823500
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  • 3. Pyramiding of tea Dihydroflavonol reductase and Anthocyanidin reductase increases flavan-3-ols and improves protective ability under stress conditions in tobacco.
    Kumar V, Yadav SK.
    3 Biotech; 2017 Jul; 7(3):177. PubMed ID: 28664364
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  • 4. Introduction of apple ANR genes into tobacco inhibits expression of both CHI and DFR genes in flowers, leading to loss of anthocyanin.
    Han Y, Vimolmangkang S, Soria-Guerra RE, Korban SS.
    J Exp Bot; 2012 Apr; 63(7):2437-47. PubMed ID: 22238451
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  • 6. Metabolic Characterization of the Anthocyanidin Reductase Pathway Involved in the Biosynthesis of Flavan-3-ols in Elite Shuchazao Tea (Camellia sinensis) Cultivar in the Field.
    Zhao L, Jiang XL, Qian YM, Wang PQ, Xie DY, Gao LP, Xia T.
    Molecules; 2017 Dec 15; 22(12):. PubMed ID: 29244739
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  • 7. Heterologous expression of gentian MYB1R transcription factors suppresses anthocyanin pigmentation in tobacco flowers.
    Nakatsuka T, Yamada E, Saito M, Fujita K, Nishihara M.
    Plant Cell Rep; 2013 Dec 15; 32(12):1925-37. PubMed ID: 24037114
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  • 10. New member of the R2R3-MYB transcription factors family in grapevine suppresses the anthocyanin accumulation in the flowers of transgenic tobacco.
    Pérez-Díaz JR, Pérez-Díaz J, Madrid-Espinoza J, González-Villanueva E, Moreno Y, Ruiz-Lara S.
    Plant Mol Biol; 2016 Jan 15; 90(1-2):63-76. PubMed ID: 26497001
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  • 11. Post-transcriptional silencing of flavonol synthase mRNA in tobacco leads to fruits with arrested seed set.
    Mahajan M, Ahuja PS, Yadav SK.
    PLoS One; 2011 Jan 15; 6(12):e28315. PubMed ID: 22145036
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  • 12. Overexpression of a tea flavanone 3-hydroxylase gene confers tolerance to salt stress and Alternaria solani in transgenic tobacco.
    Mahajan M, Yadav SK.
    Plant Mol Biol; 2014 Aug 15; 85(6):551-73. PubMed ID: 24880475
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  • 13. Tobacco TTG2 and ARF8 function concomitantly to control flower colouring by regulating anthocyanin synthesis genes.
    Li P, Chen X, Sun F, Dong H.
    Plant Biol (Stuttg); 2017 Jul 15; 19(4):525-532. PubMed ID: 28247955
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  • 14. A novel R2R3-MYB from grape hyacinth, MaMybA, which is different from MaAN2, confers intense and magenta anthocyanin pigmentation in tobacco.
    Chen K, Du L, Liu H, Liu Y.
    BMC Plant Biol; 2019 Sep 09; 19(1):390. PubMed ID: 31500571
    [Abstract] [Full Text] [Related]

  • 15. A WD40 Repeat Protein from Camellia sinensis Regulates Anthocyanin and Proanthocyanidin Accumulation through the Formation of MYB⁻bHLH⁻WD40 Ternary Complexes.
    Liu Y, Hou H, Jiang X, Wang P, Dai X, Chen W, Gao L, Xia T.
    Int J Mol Sci; 2018 Jun 06; 19(6):. PubMed ID: 29882778
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  • 16. Flower color diversity revealed by differential expression of flavonoid biosynthetic genes and flavonoid accumulation in herbaceous peony (Paeonia lactiflora Pall.).
    Zhao D, Tao J, Han C, Ge J.
    Mol Biol Rep; 2012 Dec 06; 39(12):11263-75. PubMed ID: 23054003
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  • 17. Molecular cloning and identification of a flavanone 3-hydroxylase gene from Lycium chinense, and its overexpression enhances drought stress in tobacco.
    Song X, Diao J, Ji J, Wang G, Guan C, Jin C, Wang Y.
    Plant Physiol Biochem; 2016 Jan 06; 98():89-100. PubMed ID: 26650932
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  • 18. Molecular characterization and functional analysis of chalcone synthase from Syringa oblata Lindl. in the flavonoid biosynthetic pathway.
    Wang Y, Dou Y, Wang R, Guan X, Hu Z, Zheng J.
    Gene; 2017 Nov 30; 635():16-23. PubMed ID: 28890377
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  • 19. Isolation and functional characterization of a R2R3-MYB regulator of the anthocyanin biosynthetic pathway from Epimedium sagittatum.
    Huang W, Khaldun AB, Lv H, Du L, Zhang C, Wang Y.
    Plant Cell Rep; 2016 Apr 30; 35(4):883-94. PubMed ID: 26849670
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