CREST, Japan Science and Technology Agency, Kawaguchi 332-0012, Japan; Department of Biological Chemistry, Faculty of Agriculture, Yamaguchi University, Yamaguchi 753-8515, Japan; Center for Ecological Research, Kyoto University, Otsu 520-2113, Japan.
Plant Sci. 2006 Sep;171(3):415-23. doi: 10.1016/j.plantsci.2006.05.004. Epub 2006 Jun 2.
C6-aldehydes [(E)-2-hexenal and (Z)-3-hexenal] induce expression of defense genes, accumulation of antifungal substances, and resistance against Botrytis cinerea with Arabidopsis. In order to elucidate the signaling pathway mediating the defense responses induced by C6-aldehydes in Arabidopsis, we compared the responses of Arabidopsis mutants deficient in the signaling pathways; i.e., etr1-1 (ethylene resistant), jar1-1 (jasmonate resistant), npr1-1 (salicylic acid insensitive), or pad2-1 (phytoalexin-deficient) with those of wild type (WT) plants. Induction of some, but not all of the defense genes in response to C6-aldehydes was significantly repressed in jar1-1, etr1-1, and pad2-1, but not at all in npr1-1. C6-aldehyde-treatment enhanced accumulation of camalexin with WT and npr1-1, but only partially with etr1-1 and jar1-1. pad2-1 showed little accumulation of camalexin. npr1-1 accumulated the antifungal substances as WT did, however, etr1-1, jar1-1 and pad2-1 exhibited only partial accumulation. The treatment enhanced resistance of etr1-1, jar1-1 and npr1-1 against B. cinerea, but failed to enhance the resistance of pad2-1. Taken together, it was suggested that ETR1-, JAR1-, and PAD2-dependent signaling pathways were simultaneously activated by C6-aldehyde-treatment. Among these, PAD2-dependent signaling appeared to be most important. In contrast, involvement of NPR1-dependent signaling was minimal.
C6-醛[(E)-2-己烯醛和(Z)-3-己烯醛]诱导拟南芥防御基因表达、积累抗真菌物质和对灰葡萄孢的抗性。为了阐明介导 C6-醛在拟南芥中诱导防御反应的信号通路,我们比较了信号通路缺陷型拟南芥突变体(即etr1-1(乙烯抗性)、jar1-1(茉莉酸抗性)、npr1-1(水杨酸不敏感)或 pad2-1(植保素缺乏)与野生型(WT)植株的反应。C6-醛诱导的一些防御基因的表达,但不是所有的防御基因,在 jar1-1、etr1-1 和 pad2-1 中受到显著抑制,但在 npr1-1 中则完全不受抑制。C6-醛处理增强了 WT 和 npr1-1 中姜酮的积累,但在 etr1-1 和 jar1-1 中只有部分增强,而在 pad2-1 中则很少积累姜酮。npr1-1 积累了与 WT 相同的抗真菌物质,但 etr1-1、jar1-1 和 pad2-1 只表现出部分积累。处理增强了 etr1-1、jar1-1 和 npr1-1 对灰葡萄孢的抗性,但未能增强 pad2-1 的抗性。总之,这表明 ETR1、JAR1 和 PAD2 依赖的信号通路同时被 C6-醛处理激活。在这些信号通路中,PAD2 依赖的信号通路似乎最为重要。相比之下,NPR1 依赖的信号通路的参与则最小。
