Salicylic Acid and Disease Resistance in Plants |
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Authors: | D'Maris Amick Dempsey Jyoti Shah Daniel F. Klessig |
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Affiliation: | Waksman Institute and Department of Molecular Biology and Biochemistry, Rutgers, The State University of New Jersey, 190 Frelinghuysen Road, Piscataway, NJ 08854-8020 |
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Abstract: | SA has been shown to play an important signaling role in the activation of various plant defense responses following pathogen attack. These responses include the induction of local and systemic disease resistance, the potentiation of host cell death, and the containment of pathogen spread. The mechanisms through which SA mediates these effects are varied and can involve alterations in the activity or synthesis of certain enzymes, increased defense gene expression, potentiation of several defense responses, and/or the generation of free radicals. Through the analysis of mutant plants exhibiting aberrant responses to pathogen infection, many genes encoding products involved in the SA-mediated defense pathway(s) have been isolated. In addition, mounting evidence suggests that certain defense responses can be activated via a SA-independent pathway(s). This review focuses primarily on recent discoveries pertaining to the SA signaling pathway(s) leading to disease resistance; however, a very brief discussion of the SA-independent pathway (s) and its ability to cross-talk with the SA pathway is also presented. |
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Keywords: | reactive oxygen species cell death potentiation systemic acquired resistance. |
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