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Journal Abstract Search

839 related items for PubMed ID: 17134853

  • 1. Deciphering the regulatory mechanisms of abiotic stress tolerance in plants by genomic approaches.
    Sreenivasulu N, Sopory SK, Kavi Kishor PB.
    Gene; 2007 Feb 15; 388(1-2):1-13. PubMed ID: 17134853
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  • 3. Emerging trends in the functional genomics of the abiotic stress response in crop plants.
    Vij S, Tyagi AK.
    Plant Biotechnol J; 2007 May 15; 5(3):361-80. PubMed ID: 17430544
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  • 4. Understanding regulatory networks and engineering for enhanced drought tolerance in plants.
    Valliyodan B, Nguyen HT.
    Curr Opin Plant Biol; 2006 Apr 15; 9(2):189-95. PubMed ID: 16483835
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  • 5. Research on plant abiotic stress responses in the post-genome era: past, present and future.
    Hirayama T, Shinozaki K.
    Plant J; 2010 Mar 15; 61(6):1041-52. PubMed ID: 20409277
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  • 6. Achieving crop stress tolerance and improvement--an overview of genomic techniques.
    Rasool S, Ahmad P, Rehman MU, Arif A, Anjum NA.
    Appl Biochem Biotechnol; 2015 Dec 15; 177(7):1395-408. PubMed ID: 26440315
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  • 9. Soybean WRKY-type transcription factor genes, GmWRKY13, GmWRKY21, and GmWRKY54, confer differential tolerance to abiotic stresses in transgenic Arabidopsis plants.
    Zhou QY, Tian AG, Zou HF, Xie ZM, Lei G, Huang J, Wang CM, Wang HW, Zhang JS, Chen SY.
    Plant Biotechnol J; 2008 Jun 15; 6(5):486-503. PubMed ID: 18384508
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  • 10. Functional analysis of a NAC-type transcription factor OsNAC6 involved in abiotic and biotic stress-responsive gene expression in rice.
    Nakashima K, Tran LS, Van Nguyen D, Fujita M, Maruyama K, Todaka D, Ito Y, Hayashi N, Shinozaki K, Yamaguchi-Shinozaki K.
    Plant J; 2007 Aug 15; 51(4):617-30. PubMed ID: 17587305
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  • 11. Transgenic crops coping with water scarcity.
    Cominelli E, Tonelli C.
    N Biotechnol; 2010 Nov 30; 27(5):473-7. PubMed ID: 20723623
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  • 12. 'Omics' analyses of regulatory networks in plant abiotic stress responses.
    Urano K, Kurihara Y, Seki M, Shinozaki K.
    Curr Opin Plant Biol; 2010 Apr 30; 13(2):132-8. PubMed ID: 20080055
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  • 13. Unraveling abiotic stress tolerance mechanisms--getting genomics going.
    Bohnert HJ, Gong Q, Li P, Ma S.
    Curr Opin Plant Biol; 2006 Apr 30; 9(2):180-8. PubMed ID: 16458043
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  • 14. Functional-genomics-based identification of genes that regulate Arabidopsis responses to multiple abiotic stresses.
    Kant P, Gordon M, Kant S, Zolla G, Davydov O, Heimer YM, Chalifa-Caspi V, Shaked R, Barak S.
    Plant Cell Environ; 2008 Jun 30; 31(6):697-714. PubMed ID: 18182014
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  • 15. Genetic and genomic tools to improve drought tolerance in wheat.
    Fleury D, Jefferies S, Kuchel H, Langridge P.
    J Exp Bot; 2010 Jul 30; 61(12):3211-22. PubMed ID: 20525798
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  • 16. Enhancing drought tolerance in C(4) crops.
    Lopes MS, Araus JL, van Heerden PD, Foyer CH.
    J Exp Bot; 2011 May 30; 62(9):3135-53. PubMed ID: 21511912
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  • 18. The Arabidopsis basic leucine zipper transcription factor AtbZIP24 regulates complex transcriptional networks involved in abiotic stress resistance.
    Yang O, Popova OV, Süthoff U, Lüking I, Dietz KJ, Golldack D.
    Gene; 2009 May 01; 436(1-2):45-55. PubMed ID: 19248824
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  • 19. Mechanisms of high salinity tolerance in plants.
    Tuteja N.
    Methods Enzymol; 2007 May 01; 428():419-38. PubMed ID: 17875432
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  • 20. Dissection and modelling of abiotic stress tolerance in plants.
    Tardieu F, Tuberosa R.
    Curr Opin Plant Biol; 2010 Apr 01; 13(2):206-12. PubMed ID: 20097596
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