Skip to main content
Article thumbnail
Location of Repository

Transcriptomic changes induced by acute ozone in resistant and sensitive Medicago truncatula accessions

By Michael C Puckette, Yuhong Tang and Ramamurthy Mahalingam
Topics: Research Article
Publisher: BioMed Central
OAI identifier:
Provided by: PubMed Central
Download PDF:
Sorry, we are unable to provide the full text but you may find it at the following location(s):
  • http://www.pubmedcentral.nih.g... (external link)
  • Suggested articles


    1. (1978). Antimycin- and cyanide-resistant respiration and superoxide anion production in fresh and aged potato tuber mitochondria.
    2. (2004). Ascorbic acid, a familiar small molecule intertwined in the response of plants to ozone, pathogens, and the onset of senescence. Plant Cell and Environment
    3. (2006). Ayoubi P: Analysis of oxidative signalling induced by ozone in Arabidopsis thaliana. Plant Cell and Environment
    4. (2005). Berkel W: Human NAD(P)H:Quinone oxidoreductase inhibition by flavonoids in living cells. Free Radical Biology and Medicine
    5. (2002). Breusegem F: Signal transduction during oxidative stress.
    6. (2006). Breusegem F: Transcriptomic footprints disclose specificity of reactive oxygen species signaling in Arabidopsis. Plant Physiology
    7. (2002). Camp W: Comprehensive analysis of gene expression in Nicotiana tabacum leaves acclimated to oxidative stress.
    8. (2002). Colliver S: Increasing antioxidant levels in tomatoes through modification of the flavonoid biosynthetic pathway.
    9. (2003). Coordinate induction of glutathione biosynthesis and glutathione-metabolizing enzymes is correlated with salt tolerance in tomato. Febs Letters
    10. (1993). Deng P: Inhibition of NAD(P)H:Quinone Acceptor Oxidoreductase by Flavones: A Structure-Activity Study. Archives of Biochemistry and Biophysics
    11. (2003). Differential effects of elevated ozone on two hybrid aspen genotypes predisposed to chronic ozone fumigation. Role of ethylene and salicylic acid. Plant Physiology
    12. (2000). Eichholz A: Dihydroquercetin as a Means of Antioxidative Defense in Rats with Tetrachloromethane hepatitis. Phytotherapy Research
    13. (2003). Fedoroff N: Stress response, cell death and signalling: the many faces of reactive oxygen species. Physiologia Plantarum
    14. (2005). Fedoroff N: Temporal evolution of the Arabidopsis oxidative stress response. Plant Molecular Biology
    15. (2003). Fedoroff NV: Characterizing the stress/ defense transcriptome of Arabidopsis. Genome Biology
    16. (2004). Fedoroff NV: CLENCH: a program for calculating Cluster ENriCHment using the Gene Ontology. Bioinformatics
    17. (1997). Fluhr R: Two distinct sources of elicited reactive oxygen species in tobacco epidermal cells. Plant Cell
    18. (2003). Foyer CH: Apoplastic ascorbate metabolism and its role in the regulation of cell signalling. Current Opinion in Plant Biology
    19. (2003). Foyer CH: Leaf vitamin C contents modulate plant defense transcripts and regulate genes that control development through hormone signaling. Plant Cell
    20. (2004). Foyer CH: Regulation of calcium signalling and gene expression by glutathione.
    21. (2000). Functional analysis of oxidative stress-activated mitogen-activated protein kinase cascade in plants.
    22. (2005). Gallie DR: Increasing tolerance to ozone by elevating foliar ascorbic acid confers greater protection against ozone than increasing avoidance. Plant Physiology
    23. (2006). Gene expression profiles of O-3-treated Arabidopsis plants. Plant Cell and Environment
    24. (1991). Generation of superoxide anion and hydrogen peroxide at the surface of plant cells.
    25. (2002). Genesis: cluster analysis of microarray data. Bioinformatics
    26. (1981). Grisebach H: Conversion of Flavanone to Flavone, Dihydroflavonol and Flavonol with an Enzyme-System from Cell-Cultures of Parsley. Zeitschrift Fur Naturforschung C-a Journal of Biosciences
    27. (1975). Grisebach H: Free Reversibility of Udp-Glucose-Flavonol 3-OGlucosyltransferase Reaction.
    28. (2004). Hideg E, Apel K: The genetic basis of singlet oxygen–induced stress response of Arabidopsis thaliana. Science
    29. (2004). Hirt H: Reactive oxygen species: Metabolism, oxidative stress, and signal transduction. Annual Review of Plant Biology
    30. (1999). HJ: The cost of crop damage caused by ozone air pollution from motor vehicles.
    31. (2007). Horinouchi S: Synthesis of unantural flavonoids and stilbenes by exploiting the plant biosynthetic pathway in Escherichia coli. Chemical Biology
    32. (2005). Hydrogen peroxide-induced cell death in Arabidopsis: Transcriptional and mutant analysis reveals a role of an oxoglutarate-dependent dioxygenase gene in the cell death process. Iubmb Life
    33. (2006). Identification of late O-3-responsive genes in Arabidopsis thaliana by cDNA microarray analysis. Physiologia Plantarum
    34. (1983). Induction and Characterization of a Microsomal Flavonoid 3'-Hydroxylase from Parsley Cell-Cultures.
    35. (2003). Kabakov A: Flavonoid Dihydroquercetin, unlike Quercetin Fails to Inhibit Expression of Heat Shock Proteins under Conditions of Cellular Stress. Biochemistry (Mosc)
    36. (2003). Kanellis AK: Overexpression of ascorbate oxidase in the apoplast of transgenic tobacco results in altered ascorbate and glutathione redox states and increased sensitivity to ozone. Planta
    37. (2000). KR: Jasmonic acid signaling modulates ozone-induced hypersensitive cell death. Plant Cell
    38. (1999). KR: Ozone-induced cell death occurs via two distinct mechanisms in Arabidopsis: the role of salicylic acid.
    39. (2002). KR: Ozone-induced ethylene production is dependent on salicylic acid, and both salicylic acid and ethylene act in concert to regulate ozone-induced cell death.
    40. (2000). KR: Ozone: a tool for probing programmed cell death in plants. Plant Molecular Biology
    41. (2001). KR: The physiology of ozone induced cell death. Planta
    42. (2006). Laloi C: Reactive oxygen species as signals that modulate plant stress responses and programmed cell death. Bioessays
    43. (2002). Langebartels C: Activation of an oxidative burst is a general feature of sensitive plants exposed to the air pollutant ozone. Plant Cell and Environment
    44. (2002). LJ: The phenylpropanoid pathway and plant defence – a genomics perspective. Molecular Plant Pathology
    45. (2003). LW: Legume natural products: Understanding and manipulating complex pathways for human and animal health. Plant Physiology
    46. (2004). MR: OXI1 kinase is necessary for oxidative burst-mediated signalling in Arabidopsis. Nature
    47. (2005). NADPH oxidasederived reactive oxygen intermediates suppress spread of cell death in Arabidopsis thaliana. Nature Genetics
    48. (2005). Noctor G: Redox homeostasis and antioxidant signaling: A metabolic interface between stress perception and physiological responses. Plant Cell
    49. (2005). Oxidant and antioxidant signalling in plants: a reevaluation of the concept of oxidative stress in a physiological context. Plant Cell and Environment
    50. (1989). Ozone and crop yield. Annual Review of Phytopathology
    51. (2002). Ozone uptake and its effect on photosynthetic parameters of two tobacco cultivars with contrasting ozone sensitivity. Plant Physiology and Biochemistry
    52. (1998). Ozone-induced oxidative burst in the ozone biomonitor plant, tobacco Bel W3. Plant Journal
    53. (2004). Ozone-induced oxidative stress in Arabidopsis: Transcription profiling by microarray approach. Cell Mol Biol Lett
    54. (2000). Ozone-sensitive Arabidopsis rcd1 mutant reveals opposite roles for ethylene and jasmonate signaling pathways in regulating superoxide-dependent cell death. Plant Cell
    55. (1998). Paakkonen E: Stomatal conductance of birch leaves – Plenty of variation in the variable which determines the ozone dose. Chemosphere
    56. (2001). Pasqualini S: Ozone quenching properties of isoprene and its antioxidant role in leaves. Plant Physiology
    57. (1995). PD: Singlet Oxygen Generation from the Reaction of Ozone with Plant-Leaves.
    58. (2007). Physiological and biochemical responses to acute ozone-induced oxidative stress in Medicago truncatula. Plant Physiol Biochem
    59. (2001). Plant mitochondria and oxidative stress: Electron transport, NADPH turnover, and metabolism of reactive oxygen species. Annual Review of Plant Physiology and Plant Molecular Biology
    60. (1996). Protection against oxidative damage by dihydroflavonols in Engelhardtia chrysolepis.
    61. (2002). RA: A genomics approach to the early stages of triterpene saponin biosynthesis in Medicago truncatula.
    62. (2003). Reactive oxygen species and hormonal control of cell death. Trends in Plant Science
    63. (2006). Reactive Oxygen Species in Plant Cell Death. Plant Physiology
    64. (1991). Response of Photosynthesis and Cellular Antioxidants to Ozone in Populus Leaves. Plant Physiology
    65. (1993). RL: Responses to Ozone of
    66. (2003). Saji H: Differential ozone sensitivity among Arabidopsis accessions and its relevance to ethylene synthesis. Planta
    67. (2008). Saji H: Disruption of a gene encoding C-4-dicarboxylate transporter-like protein increases ozone sensitivity through deregulation of the stomatal response in Arabidopsis thaliana. Plant and Cell Physiology
    68. (2005). Signalling and cell death in ozone–exposed plants. Plant Cell and Environment
    69. (2006). Significance of flavonoids in plant resistance: a review. Environmental Chemistry Letters
    70. (2000). Simulating ozone detoxification in the leaf apoplast through the direct reaction with ascorbate. Planta
    71. (2005). Singlet oxygen production in photosynthesis.
    72. SP: Effects of oxidants at the biochemical, cell and physiological levels, with particular reference to ozone.
    73. (1999). Subcellular localization of ozoneinduced hydrogen peroxide production in birch (Betula pendula) leaf cells. Plant Journal
    74. (1995). Superoxide production by mitochondria isolated from green bell pepper fruit. Physiologia Plantarum
    75. (1998). TA: Disturbances in stomatal behaviour caused by air pollutants.
    76. (1989). The Chemistry of Ozone Deposition to PlantLeaves –
    77. (2006). The role of reactive oxygen species in cell growth: lessons from root hairs.
    78. (2006). The role of reactive oxygen species in hormonal responses. Plant Physiology
    79. (2003). The salicylic acid loop in plant defense. Current Opinion in Plant Biology
    80. (1996). Tiukavkina N: Antioxidant properties of dihydroquercetin. Biofizika
    81. (2003). Transcriptome analysis of O-3-exposed Arabidopsis reveals that multiple signal pathways act mutually antagonistically to induce gene expression. Plant Molecular Biology
    82. (2003). Tutel'yan V: Effects of Flavonoids on the Resistance of Microsomes to Lipid Peroxidation
    83. (2001). Velikova V: Isoprene produced by leaves protects the photosynthetic apparatus against ozone damage, quenches ozone products, and reduces lipid peroxidation of cellular membranes. Plant Physiology
    84. (1990). Wellburn AR: Electron-Spin-Resonance Evidence for the Formation of Free-Radicals in Plants Exposed to Ozone. Physiologia Plantarum
    85. (2006). Yun SC: The ozone stress transcriptome of pepper (Capsicum annuum L.). Mol Cells

    To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.