• Title of article

    Cell biology of plant immunization against microbial infection: The potential of induced resistance in controlling plant diseases

  • Author/Authors

    Benhamou، نويسنده , , Nicole and Nicole، نويسنده , , Michel، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    17
  • From page
    703
  • To page
    719
  • Abstract
    During the course of their co-evolution, plants and pathogens have evolved an intricate relationship resulting from a continuous exchange of molecular information. Pathogens have developed an array of offensive strategies to parasitize plants and, in turn, plants have deployed a wide range of defence mechanisms similar in some respects to the immune defences produced in animals. The recent advances in molecular biology and plant transformation have provided evidence that sensitizing a plant to respond more rapidly to infection could confer increased protection against virulent pathogens. One important facet in ascertaining the significance of defence molecules in plant disease resistance is the exact knowledge of their spatio-temporal distribution in stressed plant tissues. In an effort to understand the process associated with the induction of plant disease resistance, the effect of microbial and chemical elicitors on the plant cell response during attack by fungal pathogens was investigated and the mechanisms underlying the expression of resistance to bacteria and nematodes studied by both histo- and cytochemistry. Evidence is provided that the disease-resistance response correlates with changes in cell biochemistry and physiology that are accompanied by structural modifications including the formation of callose-enriched wall appositions and the infiltration of phenolic compounds at sites of potential pathogen penetration. Activation of the phenylpropanoid pathway is a crucial phenomenon involved in pathogen growth restriction and host cell survival under stress conditions. Ultrastructural and cytochemical approaches have the potential to significantly improve our knowledge of how plants defend themselves and how plant disease resistance is expressed at the cell level.
  • Keywords
    Ultrastructure , Chemical-mediated induced resistance , elicitor-mediated resistance , gold cytochemistry , microbial-mediated induced resistance , Soil-borne pathogens
  • Journal title
    Plant Physiology and Biochemistry
  • Serial Year
    1999
  • Journal title
    Plant Physiology and Biochemistry
  • Record number

    2119838