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Journal Abstract Search

1572 related items for PubMed ID: 26369665

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  • 3. Comparative transcriptome sequencing of tolerant rice introgression line and its parents in response to drought stress.
    Huang L, Zhang F, Zhang F, Wang W, Zhou Y, Fu B, Li Z.
    BMC Genomics; 2014 Nov 26; 15(1):1026. PubMed ID: 25428615
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  • 4. Identification of miRNA-mediated drought responsive multi-tiered regulatory network in drought tolerant rice, Nagina 22.
    Balyan S, Kumar M, Mutum RD, Raghuvanshi U, Agarwal P, Mathur S, Raghuvanshi S.
    Sci Rep; 2017 Nov 13; 7(1):15446. PubMed ID: 29133823
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  • 5. MicroRNAs regulate the main events in rice drought stress response by manipulating the water supply to shoots.
    Fard EM, Bakhshi B, Farsi M, Kakhki AM, Nikpay N, Ebrahimi MA, Mardi M, Salekdeh GH.
    Mol Biosyst; 2017 Oct 24; 13(11):2289-2302. PubMed ID: 28872648
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  • 11. Identification and Characterization of Novel Maize Mirnas Involved in Different Genetic Background.
    Sheng L, Chai W, Gong X, Zhou L, Cai R, Li X, Zhao Y, Jiang H, Cheng B.
    Int J Biol Sci; 2015 Oct 24; 11(7):781-93. PubMed ID: 26078720
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  • 12. De novo Transcriptome Assembly of Common Wild Rice (Oryza rufipogon Griff.) and Discovery of Drought-Response Genes in Root Tissue Based on Transcriptomic Data.
    Tian XJ, Long Y, Wang J, Zhang JW, Wang YY, Li WM, Peng YF, Yuan QH, Pei XW.
    PLoS One; 2015 Oct 24; 10(7):e0131455. PubMed ID: 26134138
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  • 13. Comparative transcriptome analysis highlights the crucial roles of photosynthetic system in drought stress adaptation in upland rice.
    Zhang ZF, Li YY, Xiao BZ.
    Sci Rep; 2016 Jan 18; 6():19349. PubMed ID: 26777777
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  • 14. Genome-wide identification of conserved microRNA and their response to drought stress in Dongxiang wild rice (Oryza rufipogon Griff.).
    Zhang F, Luo X, Zhou Y, Xie J.
    Biotechnol Lett; 2016 Apr 18; 38(4):711-21. PubMed ID: 26667133
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  • 15. Comparative transcriptome profiles of the WRKY gene family under control, hormone-treated, and drought conditions in near-isogenic rice lines reveal differential, tissue specific gene activation.
    Nuruzzaman M, Sharoni AM, Satoh K, Kumar A, Leung H, Kikuchi S.
    J Plant Physiol; 2014 Jan 01; 171(1):2-13. PubMed ID: 24189206
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  • 16. Genetic, physiological, and gene expression analyses reveal that multiple QTL enhance yield of rice mega-variety IR64 under drought.
    Swamy BP, Ahmed HU, Henry A, Mauleon R, Dixit S, Vikram P, Tilatto R, Verulkar SB, Perraju P, Mandal NP, Variar M, Robin S, Chandrababu R, Singh ON, Dwivedi JL, Das SP, Mishra KK, Yadaw RB, Aditya TL, Karmakar B, Satoh K, Moumeni A, Kikuchi S, Leung H, Kumar A.
    PLoS One; 2013 Jan 01; 8(5):e62795. PubMed ID: 23667521
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  • 17. Genome-wide analysis of microRNAs and their target genes related to leaf senescence of rice.
    Xu X, Bai H, Liu C, Chen E, Chen Q, Zhuang J, Shen B.
    PLoS One; 2014 Jan 01; 9(12):e114313. PubMed ID: 25479006
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  • 18. Expression of drought tolerance genes in tropical upland rice cultivars (Oryza sativa).
    Silveira RD, Abreu FR, Mamidi S, McClean PE, Vianello RP, Lanna AC, Carneiro NP, Brondani C.
    Genet Mol Res; 2015 Jul 27; 14(3):8181-200. PubMed ID: 26345744
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  • 19. Identification of microRNAs in Response to Drought in Common Wild Rice (Oryza rufipogon Griff.) Shoots and Roots.
    Zhang JW, Long Y, Xue MD, Xiao XG, Pei XW.
    PLoS One; 2017 Jul 27; 12(1):e0170330. PubMed ID: 28107426
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  • 20. Effects of drought stress on global gene expression profile in leaf and root samples of Dongxiang wild rice (Oryza rufipogon).
    Zhang F, Zhou Y, Zhang M, Luo X, Xie J.
    Biosci Rep; 2017 Jun 30; 37(3):. PubMed ID: 28424372
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