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Molecular dialogue between plant resistance pathways – SAR and ISR

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
During normal vegetation, plants are exposed to many stress factors, such as the presence of heavy metal ions in the soil, chemical pesticides, excessive UV radiation or pathogenic microorganisms. In response to local infections, plants activate salicylic or jasmonic acid-dependent signaling pathways. Systemic Acquired Resistance (SAR) and Induced Systemic Resistance (ISR) are two forms of induced resistance. The SAR pathway requires the accumulation of endogenous salicylic acid and provides protection against biotrophic pathogens. ISR requires the biosynthesis of jasmonic acid and protects against necrotrophic pathogens. Based on recent scientific research, cross-talk between SAR and ISR signaling pathways is thought to be involved in whole-plant resistance against a wide range of pathogens.
Rocznik
Strony
129--139
Opis fizyczny
Bibliogr. 35 poz.
Twórcy
autor
  • Institute of General Food Chemistry, Lodz University of Technology Wólczańska 171/173, 90-924 Łódź, Poland
  • Institute of General Food Chemistry, Lodz University of Technology Wólczańska 171/173, 90-924 Łódź, Poland
Bibliografia
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  • 2. Kozlowska M, Konieczny G. Biologia odpornosci roslin na patogeny i szkodniki. Wydawnictwo Akademii Rolniczej imienia A. Cieszkowskiego, Poznan 2003.
  • 3. Krol P, Kepczynska E. Rola jasmonianow w indukowanej odpornosci systemicznej roslin przeciwko patogenom. Biotechnologia 1 2008, 80:122-135.
  • 4. Vallad GE, Goodman M. Systemic Acquired Resistance and Induced Systemic Resistance in Conventional Agriculture. Crop Science Society of America 2004,44:1920-1934.
  • 5. Heil M, Ton J. Long-distance signaling in plant defense. Trends Plant Sci 2008, 13:264-270.
  • 6. Heil M. Induced systemic resistance (ISR) against pathogens – promising field for ecological research. Perspect Plant Ecol 2001, 4:65-79.
  • 7. Kielkiewicz M, Godzina M, Czapla A. Aktywacja mechanizmow obronnych roślin przez szkodniki. Progress in Plant Protection 2010, 50, 2:885-896.
  • 8. Hunt M, Neuenschwander UH, Delaney TP, Weymann KB, Friedrich LB, Lawton KA, York Steiner H, Ryals JA. Recent advances in systemic acquired resistance research – a review 1. Agriculural Biotechnology Research Unit 1996, 179:89-95.
  • 9. Maleck K, Dietrich AR. Defense on multiple fronts: how do plants cope with diverseenemies? Trends Plant Sci 1999, 4:215-219.
  • 10 .Lawton KA, Friedrich L, Hunt M, Weymann K, Delaney T, Kessmann H, StaubT, Ryals J. Benzothiadiazole induces disease resistance in Arabidopsis by activation of the systemic acquired resistance signal transduction pathway. Plant Journal 1996,10:71-82.
  • 11. Corne MJ, Pieterse LC. Van Loon. Signaling cascades involved in induced resistance. Induced Resistance for Plant Defense: A Sustainable Approach to Crop Protection. Blackwell Publishing 2007, pp. 65-88.
  • 12. Lawton K, Weymann K, Friedrich L, Vernooij B, Uknes S, Ryals J. Systemic acquired resistance in Arabidopsis requires salicylic acid but not ethylene. Mol Plant Microbe Interact 1995, 8:863-870.
  • 13. Koo AJ, Howe GA. Catabolism and deactivation of the lipid-derived hormone jasmonoyl-isoleucine. Front Plant Sci 2012, 3-19.
  • 14. Borad V, Sriram S. Pathogenesis-Related Proteins for the Plant Protection. Asian J Exp Sci 2008, 22:189-196.
  • 15. Dong X. Genetic dissection of systemic acquired resistance. Curr Opin Plant Biol2001, 4:309-314.
  • 16. Van Wees SC, de Swart EA, van Pelt JA, van Loon LC, Pieterse CM. Enhancement of induced disease resistance by simultaneous activation of salicylate- and jasmonate-dependent defense pathways in Arabidopsis thaliana. Proc Natl Acad Sci USA 2000, 97:8711-8716.
  • 17. Pieterse CM, van Wees SC, van Pelt JA, Knoester M, Laan R, Gerrits H, Weisbeek PJ, van Loon LC. A novel signaling pathway controlling induced systemic resistance in Arabidopsis. Plant Cell 1998, 10:1571-1580.
  • 18. Penninckx IA, Eggermont K, Terras FR, Thomma BP, De Samblanx GW, Buchala A, Métraux JP, Manners JM, Broekaert WF. Pathogen-induced systemic activation of a plant defensin gene in Arabidopsis follows a salicylic acid-independent pathway. Plant Cell 1996, 8:2309-2323.
  • 19. Cao H, Li X, Dong X. Generation of broad-spectrum disease resistance by overexpression of an essential regulatory gene in systemic acquired resistance. Proc Natl Acad Sci USA 1998, 95:6531-6536.
  • 20. Sinha M, Singh RP, Singh Kushwaha G, Iqbal N, Singh A, Kaushik S, Kaur P, Sharma S, Singh TP. Current Overview of Allergens of Plant Pathogenesis Related Protein Families. The Scientific World Journal 2014, Article ID 543195.
  • 21. Van Loon LC, Van Kammen A. Polyacrylamide disc electrophoresis of the soluble leaf proteins from Nicotiana tabacum var. “Samsun” and “Samsun NN”. II: changes in protein constitution after infection with tobacco mosaic virus. Virology 1970,40:199-211.
  • 22. Edreva A. Pathogenesis-Related Proteins: Research progress in the last 15 years. General and Applied Plant Physiology 2005, 31:105-124.
  • 23. Bokszczanin KL, Przybyla AA. Molekularne aspekty alergii na produkty pochodzenia roslinnego. Cz. III. Panalergeny oraz hodowla odmian hypoalergogennych. Pol Merk Lek 2012, 190:250-255.
  • 24. Bokszczanin KL, Przybyla AA. Molekularne aspekty alergii na produkty pochodzenia roslinnego. Cz. II. Bialka zwiazane z patogeneza (PR), alergenność jablek warunkowana genem Mal d1. Pol Merk Lek 2012, 189:176-181.
  • 25. Peña-Cortés H, Albrecht T, Prat S, Weiler EW, Willmitzer L. Aspirin prevents wound-induced gene expression in tomato leaves by blocking jasmonic acid biosynthesis. Planta 1993, 191:123-128.
  • 26. Penninckx IAMA, Eggermont K, Terras FRG, Thomma BPHJ, De Samblanx GW, Buchala A, Métraux J-P, Manners JM, Broekaert WF. Pathogen-induced systemic activation of a plant defensin gene in Arabidopsis follows a salicylic acid-independent pathway. Plant Cell 1996, 8:2309-2323.
  • 27. Bowling SA, Clarke JD, Liu Y, Klessig DF, Dong X. The cpr5 mutant of Arabidopsis expresses both NPR1-dependent and NPR1-independent resistance. Plant Cell 1997, 9:1573-1584.
  • 28. Niki T, Mitsuhara I, Seo S, Ohtsubo N, Ohashi Y. Antagonistic effect of salicylic acid and jasmonic acid on the expression of pathogenesis-related (PR) proteins. Plant Cell Physiol 1998, 39:500-507.
  • 29. Van Wees SCM, Luijendijk M, Smoorenburg I, Van Loon LC. Pieterse CMJ. Rhizobia-mediated induced systemic resistance (ISR) in Arabidopsis is not associated with a direct effect on known defense-genes but stimulates the expression of the jasmonate-inducible gene ATVSP upon challenge. Plant Mol Biol 1999,41:537-549.
  • 30. Doares SH, Narváez-Vásquez J, Conconi A, Ryan CA. Salicylic Acid Inhibits Synthesis of Proteinase Inhibitors in Tomato Leaves Induced by System in and Jasmonic Acid. Plant Physiol 1995, 108:1741-1746.
  • 31. Stout MJ, Fidantsef AL, Duffey SS, Bostock RM. Signal interactions in pathogen and insect attack: systemic plant-mediated interactions between pathogens and herbivores of the tomato, Lycopersicon esculentum. Physiol Mol Plant P 1999,54:115-130.
  • 32. Spoel SH, Koornneef A, Claessens SM, Korzelius JP, Van Pelt JA, Mueller MJ, Buchala AJ, Métraux JP, Brown R, Kazan K, Van Loon LC, Dong X, Pieterse CM.NPR1 Modulates Cross-Talk between Salicylate- and Jasmonate-Dependent Defense Pathways through a Novel Function in the Cytosol. Plant Cell 2003, 15:760-770.
  • 33. Durrant WE, Dong X. Systemic Acquired Resistance. Annu Rev Phytopathol 2004,42:185-209.
  • 34. Pieterse CM, Zamioudis C, Berendsen RL, Weller DM, Van Wees SC, Bakker PA. Induced systemic resistance by beneficial microbes. Annu Rev Phytopathol 2014,52:347-75.
  • 35. Maldonado AM, Doerner P, Dixon RA, Lamb CJ, Cameron R. A putative lipid transfer protein involved in systemic resistance signaling in Arabidopsis. Nature2002, 419:399-403.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-29f2886b-ee80-4167-a3e1-744337713180
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