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Journal Abstract Search

462 related items for PubMed ID: 25938435

  • 1. RNA-Seq Based De Novo Transcriptome Assembly and Gene Discovery of Cistanche deserticola Fleshy Stem.
    Li Y, Wang X, Chen T, Yao F, Li C, Tang Q, Sun M, Sun G, Hu S, Yu J, Song S.
    PLoS One; 2015; 10(5):e0125722. PubMed ID: 25938435
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  • 2. De novo full length transcriptome analysis and gene expression profiling to identify genes involved in phenylethanol glycosides biosynthesis in Cistanche tubulosa.
    Hou L, Li G, Chen Q, Zhao J, Pan J, Lin R, Zhu X, Wang P, Wang X.
    BMC Genomics; 2022 Oct 08; 23(1):698. PubMed ID: 36209069
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  • 4. Global transcriptome analysis of Huperzia serrata and identification of critical genes involved in the biosynthesis of huperzine A.
    Yang M, You W, Wu S, Fan Z, Xu B, Zhu M, Li X, Xiao Y.
    BMC Genomics; 2017 Mar 22; 18(1):245. PubMed ID: 28330463
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  • 6. Combined Metabolome and Transcriptome Analysis Highlights the Host's Influence on Cistanche deserticola Metabolite Accumulation.
    Feng R, Wei H, Xu R, Liu S, Wei J, Guo K, Qiao H, Xu C.
    Int J Mol Sci; 2023 Apr 27; 24(9):. PubMed ID: 37175675
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  • 7. De novo transcriptome assembly of the wild relative of tea tree (Camellia taliensis) and comparative analysis with tea transcriptome identified putative genes associated with tea quality and stress response.
    Zhang HB, Xia EH, Huang H, Jiang JJ, Liu BY, Gao LZ.
    BMC Genomics; 2015 Apr 15; 16(1):298. PubMed ID: 25881092
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  • 8. High-throughput sequencing and de novo transcriptome assembly of Swertia japonica to identify genes involved in the biosynthesis of therapeutic metabolites.
    Rai A, Nakamura M, Takahashi H, Suzuki H, Saito K, Yamazaki M.
    Plant Cell Rep; 2016 Oct 15; 35(10):2091-111. PubMed ID: 27378356
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  • 9. Wound Stress, an Unheeded Factor for Echinacoside Accumulation in Cistanche deserticola Y. C. Ma.
    Hu G, Wu T, Chang Y, Zhan X, Jia J.
    Molecules; 2018 Apr 12; 23(4):. PubMed ID: 29649140
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  • 11. RNA sequencing and de novo assembly of Solanum trilobatum leaf transcriptome to identify putative transcripts for major metabolic pathways.
    Lateef A, Prabhudas SK, Natarajan P.
    Sci Rep; 2018 Oct 18; 8(1):15375. PubMed ID: 30337583
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  • 12. Deep sequencing of the Camellia sinensis transcriptome revealed candidate genes for major metabolic pathways of tea-specific compounds.
    Shi CY, Yang H, Wei CL, Yu O, Zhang ZZ, Jiang CJ, Sun J, Li YY, Chen Q, Xia T, Wan XC.
    BMC Genomics; 2011 Feb 28; 12():131. PubMed ID: 21356090
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  • 15. Exploring drought stress-regulated genes in senna (Cassia angustifolia Vahl.): a transcriptomic approach.
    Mehta RH, Ponnuchamy M, Kumar J, Reddy NR.
    Funct Integr Genomics; 2017 Jan 28; 17(1):1-25. PubMed ID: 27709374
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  • 16. A high-quality annotated transcriptome of swine peripheral blood.
    Liu H, Smith TPL, Nonneman DJ, Dekkers JCM, Tuggle CK.
    BMC Genomics; 2017 Jun 24; 18(1):479. PubMed ID: 28646867
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  • 19. De novo comparative transcriptome analysis provides new insights into sucrose induced somatic embryogenesis in camphor tree (Cinnamomum camphora L.).
    Shi X, Zhang C, Liu Q, Zhang Z, Zheng B, Bao M.
    BMC Genomics; 2016 Jan 05; 17():26. PubMed ID: 26727885
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  • 20. Cistanche deserticola Y. C. Ma, "Desert ginseng": a review.
    Wang T, Zhang X, Xie W.
    Am J Chin Med; 2012 Jan 05; 40(6):1123-41. PubMed ID: 23227786
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