Transcriptional Changes of Salicylic Acid Dependent Signaling Pathways in Barley-Cochliobolus sativus Interaction

A. Al-Daoude, E. Al-shehadah, A. Shoaib, M. Jawhar, Arabi Mie
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引用次数: 2

Abstract

Spot blotch (SB), caused by the necrotrophic fungal pathogen Cochliobolus sativus, is an important disease of barley globally. Following transcriptional changes of salicylic acid (SA)-interacting/binding proteins during C. sativus infection may greatly advance understanding the defense crucial signaling pathways. In this study, changes of four known categories of defense; phosphorylation, ROS, PR proteins and nucleotide-binding sites encoded by genes involved in SA–mediated defense signaling networks were studied in compatible/incompatible barley-SB interactions. The functional categories showed significant differential accumulations when compared to the noninoculated controls, and they were primarily upregulated during fungal infection in the resistant cultivar compared with the susceptible one. However, SA profiling of resistant and susceptible cultivars indicated a reduction in its levels 72 hours post inoculation; therefore, we hypothesized that this signaling pathways may facilitate SB resistance. Furthermore, the expression of selected categories was induced earlier in resistant barley plants as in susceptible ones, supporting the hypothesis that a delayed defense response may occur in the C. sativus susceptible interaction.
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大麦-青稞相互作用中水杨酸依赖信号通路的转录变化
大麦斑疹病(Spot blotch,简称SB)是由大麦坏死性真菌引起的一种重要病害。研究水杨酸(SA)相互作用/结合蛋白在黄瓜感染过程中的转录变化,可能有助于进一步了解防御关键信号通路。在本研究中,四种已知防御类别的变化;在相容/不相容大麦- sb相互作用中,研究了sa介导的防御信号网络相关基因的磷酸化、ROS、PR蛋白和核苷酸结合位点。与未接种对照相比,这些功能分类有显著的差异积累,在真菌侵染过程中,抗性品种与感殖品种相比,这些功能分类主要是上调的。然而,抗性和敏感品种的SA谱分析表明,接种后72小时其水平降低;因此,我们假设这种信号通路可能促进SB抗性。此外,在抗性大麦植株中,所选类别的表达比在敏感植株中更早被诱导,这支持了在玉米敏感互作中可能发生延迟防御反应的假设。
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