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Mycorrhizal protection of chili plants challenged by Phytophthora capsici
Alejo-Iturvide. F      Olalde-Portugal. V      Márquez-Lucio. M. A      Morales-Ramírez. I      Vázquez-Garcidueñas. M. S      
European Journal of Plant Pathology ;  2008  [Vol.120]  Pages:13-20
Abstract
Hydrogen peroxide (H2O2) has been implicated in many stress conditions. Control of H2O2 levels is complex and dissection of mechanisms generating and relieving H2O2 stress is difficult, particularly in intact plants. Here the role of the mycorrhizal inoculation in chili plants challenged with Phytophthora capsici was investigated to study the effect on hypersensitive response. In the treatment without mycorrhiza (treatment T3) and with mycorrhiza (considered treatment T4) visible disorders were detected two days after inoculation with P. capsici, but in the next days T3 plants rapidly developed 25% more necrotic lesions on the leaves than T4 plants. Leaf necrosis correlated with H2O2 accumulation and the greater damage observed in T3 plants coincided with larger accumulation of H2O2 after 12 h of inoculation accompanied with an increase in POX (peroxidase) and SOD (superoxide dismutase) activity. T4-infected and mycorrhizal plants exhibited an earlier accumulation of H2O2 starting 6 h after inoculation with lower levels compared to T3 plants. Correlated with observed damage, POX and SOD activity measured in T4 plants indirectly suggest a smaller accumulation of ROS (reactive oxygen species) leading to a decrease in the wounds observed and slightly diminishing the advance of the pathogen. According to these findings, we conclude that mycorrhizal colonization contributes significantly in maintaining the redox balance during oxidative stress, but the exact mechanism is still uncertain.
Keywords
h2o2
antioxidant enzymes
peroxidase
reactive oxygen species
superoxide dismutase