Transcriptional profile of the spring freeze response in the leaves of bread wheat (Triticum aestivum L.) View Full Text


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Article Info

DATE

2012-09-16

AUTHORS

Guozhang Kang, Gezi Li, Wenping Yang, Qiaoxia Han, Hongzhen Ma, Yonghua Wang, Jiangping Ren, Yunji Zhu, Tiancai Guo

ABSTRACT

Measurement of the electrolyte leakage rates in wheat leaves indicated that there was no significant difference in susceptibility to −5 °C spring freeze stress among five bread wheat cultivars at the floret primordium-differentiating stage of spike development. A global transcriptional profile was created using the Affymetrix Wheat GeneChip microarray for one wheat cultivar (Yumai 34) under −5 °C freeze stress. After assaying genes with significant regulation at 1 and 3 days after −5 °C freeze stress, we identified 600 genes that were previously annotated as showing changes in expression of at least than two-fold at one or both of the time points. Among these genes, we further analysed 102 genes whose expression levels changed at least eight-fold after 1 or 3 days of freeze stress. These genes encoded an ice recrystallization protein, cold-related proteins, CBF transcription factors, calcium-dependent protein kinases, Na+/H+ antiporters, aquaporins, and many metabolic enzymes. The results of this study were compared with those of a previous study on the sub-freeze hardening response in wheat and spring freeze stress in wheat and barley. Many genes, including those encoding WCOR413, LEA, glycine-rich RNA-binding protein, ferritin, aquaporin 2, and a pathogen-induced protein, showed similar expression levels in these studies. Spring freeze stress is a complex phenomenon involving physiological mechanisms and multiple genes that had not been previously characterised. More... »

PAGES

575-587

References to SciGraph publications

  • 2007-04-17. Regulatory gene candidates and gene expression analysis of cold acclimation in winter and spring wheat in PLANT MOLECULAR BIOLOGY
  • 2007-07-27. Arsenic-induced root growth inhibition in mung bean (Phaseolus aureus Roxb.) is due to oxidative stress resulting from enhanced lipid peroxidation in PLANT GROWTH REGULATION
  • 2010-02-05. Enhanced tolerance to freezing in tobacco and tomato overexpressing transcription factor TERF2/LeERF2 is modulated by ethylene biosynthesis in PLANT MOLECULAR BIOLOGY
  • 2004-10-02. A stress-inducible plasma membrane protein 3 (AcPMP3) in a monocotyledonous halophyte, Aneurolepidium chinense, regulates cellular Na+ and K+ accumulation under salt stress in PLANTA
  • 1988-03. Assessing freeze damage in loblolly pine seedlings: A comparison of ethane production to electrolyte leakage in NEW FORESTS
  • 1997-07. cDNA structure and expression patterns of a low-temperature-specific wheat gene tacr7 in PLANT MOLECULAR BIOLOGY
  • 2009-10-27. CbCOR15, A Cold-Regulated Gene from Alpine Chorispora bungeana, Confers Cold Tolerance in Transgenic Tobacco in JOURNAL OF PLANT BIOLOGY
  • 1993-10. A leaf-specific gene stimulated by light during wheat acclimation to low temperature in PLANT MOLECULAR BIOLOGY
  • 2007-12. The role of dehydrins in plant response to cold in BIOLOGIA PLANTARUM
  • 2004-09-09. QTL mapping of chromosomal regions conferring reproductive frost tolerance in barley (Hordeum vulgare L.) in THEORETICAL AND APPLIED GENETICS
  • 1997-04. mRNA stability and localisation of the low-temperature-responsive barley gene family blt14 in PLANT MOLECULAR BIOLOGY
  • 2007-01-10. Silencing of NbBTF3 results in developmental defects and disturbed gene expression in chloroplasts and mitochondria of higher plants in PLANTA
  • 2009-05-11. Cold- and light-induced changes in the transcriptome of wheat leading to phase transition from vegetative to reproductive growth in BMC PLANT BIOLOGY
  • 2010-02-24. Regulation of gene expression by chromosome 5A during cold hardening in wheat in MOLECULAR GENETICS AND GENOMICS
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    55 floret primordium-differentiating stage
    56 freeze response
    57 freeze stress
    58 genes
    59 global transcriptional profiles
    60 glycine-rich RNA
    61 hardening response
    62 ice recrystallization protein
    63 kinase
    64 leakage rate
    65 leaves
    66 levels
    67 measurements
    68 mechanism
    69 metabolic enzymes
    70 multiple genes
    71 pathogen-induced proteins
    72 phenomenon
    73 physiological mechanisms
    74 point
    75 previous studies
    76 primordium-differentiating stage
    77 profile
    78 protein
    79 protein kinase
    80 rate
    81 recrystallization protein
    82 regulation
    83 response
    84 results
    85 significant differences
    86 significant regulation
    87 similar expression levels
    88 spike development
    89 spring freeze response
    90 spring freeze stress
    91 stage
    92 stress
    93 study
    94 sub-freeze hardening response
    95 susceptibility
    96 time points
    97 transcription factors
    98 transcriptional profiles
    99 two-fold
    100 wheat
    101 wheat cultivars
    102 wheat leaves
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