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210 related items for PubMed ID: 21267634

  • 1. Contrasting cDNA-AFLP profiles between crown and leaf tissues of cold-acclimated wheat plants indicate differing regulatory circuitries for low temperature tolerance.
    Ganeshan S, Sharma P, Young L, Kumar A, Fowler DB, Chibbar RN.
    Plant Mol Biol; 2011 Mar; 75(4-5):379-98. PubMed ID: 21267634
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  • 2. Quantitative expression analysis of selected COR genes reveals their differential expression in leaf and crown tissues of wheat (Triticum aestivum L.) during an extended low temperature acclimation regimen.
    Ganeshan S, Vitamvas P, Fowler DB, Chibbar RN.
    J Exp Bot; 2008 Mar; 59(9):2393-402. PubMed ID: 18508811
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  • 3. Developmental traits affecting low-temperature tolerance response in near-isogenic lines for the Vernalization locus Vrn-A1 in wheat (Triticum aestivum L. em Thell).
    Limin AE, Fowler DB.
    Ann Bot; 2002 May; 89(5):579-85. PubMed ID: 12099532
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  • 4. Genome-wide gene expression analysis supports a developmental model of low temperature tolerance gene regulation in wheat (Triticum aestivum L.).
    Laudencia-Chingcuanco D, Ganeshan S, You F, Fowler B, Chibbar R, Anderson O.
    BMC Genomics; 2011 Jun 07; 12():299. PubMed ID: 21649926
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  • 5. Interactions among factors regulating phenological development and acclimation rate determine low-temperature tolerance in wheat.
    Fowler DB, Limin AE.
    Ann Bot; 2004 Nov 07; 94(5):717-24. PubMed ID: 15374834
    [Abstract] [Full Text] [Related]

  • 6. Cbf genes of the Fr-A2 allele are differentially regulated between long-term cold acclimated crown tissue of freeze-resistant and - susceptible, winter wheat mutant lines.
    Sutton F, Chen DG, Ge X, Kenefick D.
    BMC Plant Biol; 2009 Mar 23; 9():34. PubMed ID: 19309505
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  • 7. Transcriptomic Insights into Phenological Development and Cold Tolerance of Wheat Grown in the Field.
    Li Q, Byrns B, Badawi MA, Diallo AB, Danyluk J, Sarhan F, Laudencia-Chingcuanco D, Zou J, Fowler DB.
    Plant Physiol; 2018 Mar 23; 176(3):2376-2394. PubMed ID: 29259104
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  • 8. Long-term growth under elevated CO2 suppresses biotic stress genes in non-acclimated, but not cold-acclimated winter wheat.
    Kane K, Dahal KP, Badawi MA, Houde M, Hüner NP, Sarhan F.
    Plant Cell Physiol; 2013 Nov 23; 54(11):1751-68. PubMed ID: 23969557
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  • 9. Identification of quantitative trait loci and associated candidate genes for low-temperature tolerance in cold-hardy winter wheat.
    Båga M, Chodaparambil SV, Limin AE, Pecar M, Fowler DB, Chibbar RN.
    Funct Integr Genomics; 2007 Jan 23; 7(1):53-68. PubMed ID: 16775685
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  • 10. Comparative physiological and proteomic response to abrupt low temperature stress between two winter wheat cultivars differing in low temperature tolerance.
    Xu J, Li Y, Sun J, Du L, Zhang Y, Yu Q, Liu X.
    Plant Biol (Stuttg); 2013 Mar 23; 15(2):292-303. PubMed ID: 22963252
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  • 16. Identification of upregulated genes under cold stress in cold-tolerant chickpea using the cDNA-AFLP approach.
    Dinari A, Niazi A, Afsharifar AR, Ramezani A.
    PLoS One; 2013 Mar 23; 8(1):e52757. PubMed ID: 23341906
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  • 20. Differentially expressed genes under cold acclimation in Physcomitrella patens.
    Sun MM, Li LH, Xie H, Ma RC, He YK.
    J Biochem Mol Biol; 2007 Nov 30; 40(6):986-1001. PubMed ID: 18047796
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