Miranda Manoela, Ralph Steven G, Mellway Robin, White Rick, Heath Michele C, Bohlmann Jörg, Constabel C Peter
Centre for Forest Biology and Department of Biology, University of Victoria, Victoria, BC, Canada.
Mol Plant Microbe Interact. 2007 Jul;20(7):816-31. doi: 10.1094/MPMI-20-7-0816.
The transcriptional response of hybrid poplar (Populus trichocarpa x P. deltoides) to poplar leaf rust (Melampsora medusae) infection was studied using the Populus 15.5K cDNA microarray. Pronounced changes in the transcriptome were observed, with approximately 20% of genes on the array showing either induction or repression of transcription within the 9-day infection timecourse. A small number of pathogen-defense genes encoding PR-1, chitinases, and other pathogenesis-related proteins were consistently upregulated throughout the experimental period, but most genes were affected only at individual timepoints. The largest number of changes in gene expression was observed late in the infection at 6 to 9 days postinoculation (dpi). At these timepoints, genes encoding enzymes required for proanthocyanidin (condensed tannin) synthesis were upregulated dramatically. Phytochemical analysis confirmed that, late in the infection, proanthocyanidin levels increased in infected leaves. Strongly M. medusae-repressed genes at 9 dpi included previously characterized wound- and herbivore-induced defense genes, which suggests antagonism between the tree responses to insect feeding and M. medusae infection. In this highly compatible plant-pathogen interaction, we postulate that the biotrophic pathogen evades detection and suppresses early host responses.
利用杨树15.5K cDNA微阵列研究了杂种杨树(毛果杨×美洲黑杨)对杨叶锈病(美登锈菌)感染的转录反应。观察到转录组有明显变化,在9天的感染时间进程中,阵列上约20%的基因显示出转录的诱导或抑制。少数编码病程相关蛋白1(PR-1)、几丁质酶和其他病程相关蛋白的病原体防御基因在整个实验期间持续上调,但大多数基因仅在个别时间点受到影响。在接种后6至9天(dpi)的感染后期,观察到基因表达变化的数量最多。在这些时间点,编码原花青素(缩合单宁)合成所需酶的基因显著上调。植物化学分析证实,在感染后期,感染叶片中的原花青素水平增加。在9 dpi时,被美登锈菌强烈抑制的基因包括先前鉴定的伤口和食草动物诱导的防御基因,这表明树木对昆虫取食的反应与美登锈菌感染之间存在拮抗作用。在这种高度亲和的植物-病原体相互作用中,我们推测活体营养型病原体逃避了检测并抑制了宿主的早期反应。
