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Journal Abstract Search

507 related items for PubMed ID: 28236273

  • 21. Biochemical and transcriptome analyses of a novel chlorophyll-deficient chlorina tea plant cultivar.
    Wang L, Yue C, Cao H, Zhou Y, Zeng J, Yang Y, Wang X.
    BMC Plant Biol; 2014 Dec 10; 14():352. PubMed ID: 25491435
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  • 22. CsNAM-like protein encodes a nuclear localized protein and responds to varied cues in tea [Camellia sinensis (L.) O. Kuntze].
    Paul A, Muoki RC, Singh K, Kumar S.
    Gene; 2012 Jul 01; 502(1):69-74. PubMed ID: 22543018
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  • 26. Revealing of MicroRNA Involved Regulatory Gene Networks on Terpenoid Biosynthesis in Camellia sinensis in Different Growing Time Points.
    Zhao S, Wang X, Yan X, Guo L, Mi X, Xu Q, Zhu J, Wu A, Liu L, Wei C.
    J Agric Food Chem; 2018 Nov 28; 66(47):12604-12616. PubMed ID: 30400742
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  • 27. Transcriptome analysis reveals the roles of phytohormone signaling in tea plant (Camellia sinensis L.) flower development.
    Xu X, Tao J, Xing A, Wu Z, Xu Y, Sun Y, Zhu J, Dai X, Wang Y.
    BMC Plant Biol; 2022 Oct 04; 22(1):471. PubMed ID: 36192710
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  • 28. [Identification of Two GLOBOSA-like MADS-box Genes in Tea Plant (Camellia sinensis [L.] O. Kuntze)].
    Zhou K, Cao QX, Qi JQ, Jin CM, Li GL, Zhang JJ.
    Mol Biol (Mosk); 2019 Oct 04; 53(1):16-27. PubMed ID: 30895949
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  • 29. Identification of genes revealed differential expression profiles and lignin accumulation during leaf and stem development in tea plant (Camellia sinensis (L.) O. Kuntze).
    Wang YX, Teng RM, Wang WL, Wang Y, Shen W, Zhuang J.
    Protoplasma; 2019 Mar 04; 256(2):359-370. PubMed ID: 30121729
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  • 30. The Laccase Gene Family Mediate Multi-Perspective Trade-Offs during Tea Plant (Camellia sinensis) Development and Defense Processes.
    Yu Y, Xing Y, Liu F, Zhang X, Li X, Zhang J, Sun X.
    Int J Mol Sci; 2021 Nov 21; 22(22):. PubMed ID: 34830436
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  • 31. Transcriptomic and Metabolic Insights into the Distinctive Effects of Exogenous Melatonin and Gibberellin on Terpenoid Synthesis and Plant Hormone Signal Transduction Pathway in Camellia sinensis.
    Di T, Zhao L, Chen H, Qian W, Wang P, Zhang X, Xia T.
    J Agric Food Chem; 2019 Apr 24; 67(16):4689-4699. PubMed ID: 30933485
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  • 32. The R2R3-MYB transcription factor CsMYB73 negatively regulates l-Theanine biosynthesis in tea plants (Camellia sinensis L.).
    Wen B, Luo Y, Liu D, Zhang X, Peng Z, Wang K, Li J, Huang J, Liu Z.
    Plant Sci; 2020 Sep 24; 298():110546. PubMed ID: 32771159
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  • 33. Genome-wide identification and expression analysis of GRAS family transcription factors in tea plant (Camellia sinensis).
    Wang YX, Liu ZW, Wu ZJ, Li H, Wang WL, Cui X, Zhuang J.
    Sci Rep; 2018 Mar 02; 8(1):3949. PubMed ID: 29500448
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  • 35. Transcription factor CsDOF regulates glutamine metabolism in tea plants (Camellia sinensis).
    Wang J, Chen W, Wang H, Li Y, Wang B, Zhang L, Wan X, Li M.
    Plant Sci; 2021 Jan 02; 302():110720. PubMed ID: 33288026
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  • 37. Establishing a System for Functional Characterization of Full-Length cDNAs of Camellia sinensis.
    Lin L, Cai W, Du Z, Zhang W, Xu Q, Sun W, Chen M.
    Int J Mol Sci; 2019 Nov 25; 20(23):. PubMed ID: 31775391
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  • 39. Integrated Transcriptome, microRNA, and Phytochemical Analyses Reveal Roles of Phytohormone Signal Transduction and ABC Transporters in Flavor Formation of Oolong Tea (Camellia sinensis) during Solar Withering.
    Zhu C, Zhang S, Zhou C, Chen L, Zaripov T, Zhan D, Weng J, Lin Y, Lai Z, Guo Y.
    J Agric Food Chem; 2020 Nov 11; 68(45):12749-12767. PubMed ID: 33112139
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  • 40. A Comparative Proteomic Analysis of the Buds and the Young Expanding Leaves of the Tea Plant (Camellia sinensis L.).
    Li Q, Li J, Liu S, Huang J, Lin H, Wang K, Cheng X, Liu Z.
    Int J Mol Sci; 2015 Jun 18; 16(6):14007-38. PubMed ID: 26096006
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