Activation of the SA pathway has been proven to be important in b

Activation of the SA pathway has been proven to be important in both basal and resistance gene (R)-mediated biotrophic pathogen defense in Arabidopsis thaliana, while the JA/ET pathway is activated in response to necrotrophic pathogens, feeding by tissue-damaging herbivores, and wounding [35]. Potato responses to infestation by aphids, a kind of sucking insect whose feeding behavior is similar to SBPH, involve both SA and JA/ET plant defense signaling pathways [36]. Another study showed that tomato

leaves rapidly accumulated high levels of SA after exposure to the cotton bollworm, a type of chewing pest [10]. Plants are usually exposed to insects and pathogens and hence have developed resistance to simultaneous pathogen infection and insect feeding. Doxorubicin clinical trial As insect damage can often increase the risk of pathogen attack this coordination

of plant responses seems to make biological sense. In the long-term evolutionary process, the SA- and JA-mediated signal transduction pathways have both been preserved [37]. Plants accurately regulate the SA and JA signaling pathways by adjusting SA and JA contents in order to resist stress more efficiently. In this study, the transcription of the key genes PAL for the SA synthesis pathway, as well as LOX and AOS2 for the JA pathway, were Pexidartinib price significantly up-regulated compared with their basal levels, which indicated two signaling pathways were activated due to SBPH attack. The expression of PAL dramatically increased in Kasalath after SBPH sucking, which promoted synthesis of SA and then increased SA content. Therefore, the SA mediated signaling pathway was the major defense mechanism Dynein in resistant Kasalath, which was consistent with the reports mentioned above [7], [10], [12], [15] and [31]. However, the induction LOX and AOS2 in JA responsive pathway in the susceptible Wuyujing 3 was somehow contradictory to the findings reached by Zanate et al. [15] As mentioned above, the JA/ET pathway usually induces genes whose protein products have antimicrobial and antifungal activity and accumulate

in response to necrotrophic pathogens [38]. In a previous study, we detected that wound healing was probably caused by some substance secreted by a resistance rice variety, which then protected the infected seedling. This substance was observable with a scanning electron microscope (SEM) on epidermis of resistant rice leaves infested by SBPH but not in the leaves of a susceptible variety [39]. Non-healing wounds caused by SBPH sucking in the susceptible genotype Wuyujing 3 might have led to a large invasion of bacteria and fungi in this genotype that did not occur in Kasalath which healed its wounds quickly. The massive accumulation of microorganisms in Wuyujing 3 was likely to significantly induce the expression of LOX and AOS2 involved in JA-mediated signal pathway.

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