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Journal Abstract Search

303 related items for PubMed ID: 24074255

  • 1. Transcriptome sequencing and whole genome expression profiling of chrysanthemum under dehydration stress.
    Xu Y, Gao S, Yang Y, Huang M, Cheng L, Wei Q, Fei Z, Gao J, Hong B.
    BMC Genomics; 2013 Sep 28; 14():662. PubMed ID: 24074255
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  • 3. Transcriptome analysis of chrysanthemum (Dendranthema grandiflorum) in response to low temperature stress.
    Wang K, Bai ZY, Liang QY, Liu QL, Zhang L, Pan YZ, Liu GL, Jiang BB, Zhang F, Jia Y.
    BMC Genomics; 2018 May 02; 19(1):319. PubMed ID: 29720105
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  • 4. 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 02; 17(1):1-25. PubMed ID: 27709374
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  • 5. Comprehensive transcriptomic study on horse gram (Macrotyloma uniflorum): De novo assembly, functional characterization and comparative analysis in relation to drought stress.
    Bhardwaj J, Chauhan R, Swarnkar MK, Chahota RK, Singh AK, Shankar R, Yadav SK.
    BMC Genomics; 2013 Sep 23; 14():647. PubMed ID: 24059455
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  • 6. Genome-wide transcriptional analysis of two soybean genotypes under dehydration and rehydration conditions.
    Chen LM, Zhou XA, Li WB, Chang W, Zhou R, Wang C, Sha AH, Shan ZH, Zhang CJ, Qiu DZ, Yang ZL, Chen SL.
    BMC Genomics; 2013 Oct 06; 14():687. PubMed ID: 24093224
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  • 9. Comparative Analysis of the Brassica napus Root and Leaf Transcript Profiling in Response to Drought Stress.
    Liu C, Zhang X, Zhang K, An H, Hu K, Wen J, Shen J, Ma C, Yi B, Tu J, Fu T.
    Int J Mol Sci; 2015 Aug 11; 16(8):18752-77. PubMed ID: 26270661
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  • 11. Whole-transcriptome analysis of differentially expressed genes in the ray florets and disc florets of Chrysanthemum morifolium.
    Liu H, Sun M, Du D, Pan H, Cheng T, Wang J, Zhang Q, Gao Y.
    BMC Genomics; 2016 May 25; 17():398. PubMed ID: 27225275
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  • 12. Transcriptome sequencing of two wild barley (Hordeum spontaneum L.) ecotypes differentially adapted to drought stress reveals ecotype-specific transcripts.
    Bedada G, Westerbergh A, Müller T, Galkin E, Bdolach E, Moshelion M, Fridman E, Schmid KJ.
    BMC Genomics; 2014 Nov 19; 15(1):995. PubMed ID: 25408241
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  • 13. Comprehensive transcriptome analysis of grafting onto Artemisia scoparia W. to affect the aphid resistance of chrysanthemum (Chrysanthemum morifolium T.).
    Zhang XY, Sun XZ, Zhang S, Yang JH, Liu FF, Fan J.
    BMC Genomics; 2019 Oct 25; 20(1):776. PubMed ID: 31653200
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  • 14. De novo sequencing and analysis of the cranberry fruit transcriptome to identify putative genes involved in flavonoid biosynthesis, transport and regulation.
    Sun H, Liu Y, Gai Y, Geng J, Chen L, Liu H, Kang L, Tian Y, Li Y.
    BMC Genomics; 2015 Sep 02; 16(1):652. PubMed ID: 26330221
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  • 15. De novo assembly and discovery of genes that are involved in drought tolerance in Tibetan Sophora moorcroftiana.
    Li H, Yao W, Fu Y, Li S, Guo Q.
    PLoS One; 2015 Sep 02; 10(1):e111054. PubMed ID: 25559297
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  • 20. De Novo Sequencing and Comparative Analysis of Schima superba Seedlings to Explore the Response to Drought Stress.
    Han BC, Wei W, Mi XC, Ma KP.
    PLoS One; 2016 Sep 02; 11(12):e0166975. PubMed ID: 27930677
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