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252 related items for PubMed ID: 35338214

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  • 3. Transcriptome Reveals the Dynamic Response Mechanism of Pearl Millet Roots under Drought Stress.
    Ji Y, Lu X, Zhang H, Luo D, Zhang A, Sun M, Wu Q, Wang X, Huang L.
    Genes (Basel); 2021 Dec 15; 12(12):. PubMed ID: 34946937
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  • 4. Comparative transcriptome analysis reveals the genes and pathways involved in terminal drought tolerance in pearl millet.
    Shivhare R, Asif MH, Lata C.
    Plant Mol Biol; 2020 Aug 15; 103(6):639-652. PubMed ID: 32430635
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  • 5. Transcriptome analysis of heat stress and drought stress in pearl millet based on Pacbio full-length transcriptome sequencing.
    Sun M, Huang D, Zhang A, Khan I, Yan H, Wang X, Zhang X, Zhang J, Huang L.
    BMC Plant Biol; 2020 Jul 08; 20(1):323. PubMed ID: 32640987
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  • 10. Transcriptome characterization of candidate genes for heat tolerance in perennial ryegrass after exogenous methyl Jasmonate application.
    Nie G, Zhou J, Jiang Y, He J, Wang Y, Liao Z, Appiah C, Li D, Feng G, Huang L, Wang X, Zhang X.
    BMC Plant Biol; 2022 Feb 12; 22(1):68. PubMed ID: 35151272
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  • 12. Unravelling the molecular mechanism underlying drought stress tolerance in Dinanath (Pennisetum pedicellatum Trin.) grass via integrated transcriptomic and metabolomic analyses.
    Puttamadanayaka S, Emayavaramban P, Yadav PK, Radhakrishna A, Mehta BK, Chandra A, Ahmad S, Sanivarapu H, Siddaiah CN, Yogendra K.
    BMC Plant Biol; 2024 Oct 05; 24(1):928. PubMed ID: 39367330
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  • 14. Research on the drought tolerance mechanism of Pennisetum glaucum (L.) in the root during the seedling stage.
    Zhang A, Ji Y, Sun M, Lin C, Zhou P, Ren J, Luo D, Wang X, Ma C, Zhang X, Feng G, Nie G, Huang L.
    BMC Genomics; 2021 Jul 23; 22(1):568. PubMed ID: 34301177
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  • 15. Abiotic stress tolerance in pearl millet: Unraveling molecular mechanisms via transcriptomics.
    Dhawi F.
    Sci Prog; 2024 Jul 23; 107(1):368504241237610. PubMed ID: 38500301
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  • 17. Transcriptome analysis reveals regulatory mechanisms of different drought-tolerant Gleditsia sinensis seedlings under drought stress.
    Liu F, Zhao Y, Wang X, Wang B, Xiao F, He K.
    BMC Genom Data; 2024 Mar 13; 25(1):29. PubMed ID: 38481144
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  • 18. Comparative transcriptomic and physiological analyses of contrasting hybrid cultivars ND476 and ZX978 identify important differentially expressed genes and pathways regulating drought stress tolerance in maize.
    Liu G, Zenda T, Liu S, Wang X, Jin H, Dong A, Yang Y, Duan H.
    Genes Genomics; 2020 Aug 13; 42(8):937-955. PubMed ID: 32623576
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  • 19. Comparative transcriptome analyses revealed differential strategies of roots and leaves from methyl jasmonate treatment Baphicacanthus cusia (Nees) Bremek and differentially expressed genes involved in tryptophan biosynthesis.
    Lin W, Huang W, Ning S, Gong X, Ye Q, Wei D.
    PLoS One; 2019 Aug 13; 14(3):e0212863. PubMed ID: 30865659
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  • 20. Comparative transcriptomic analysis of contrasting hybrid cultivars reveal key drought-responsive genes and metabolic pathways regulating drought stress tolerance in maize at various stages.
    Liu S, Zenda T, Li J, Wang Y, Liu X, Duan H.
    PLoS One; 2020 Aug 13; 15(10):e0240468. PubMed ID: 33057352
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