GENFOR, Grupo de Investigación en Genética, Fisiología e Historia Forestal, Universidad Politécnica de Madrid (UPM), 28040, Madrid, Spain.
iBET, Instituto de Biologia Experimental e Tecnológica, Apartado 12, 2781-901, Oeiras, Portugal.
Plant Cell Environ. 2018 Jan;41(1):198-214. doi: 10.1111/pce.13085. Epub 2017 Nov 8.
Wilt diseases caused by vascular pathogens include some of the most damaging stresses affecting trees. Dutch elm disease (DED), caused by the fungus Ophiostoma novo-ulmi, destroyed most of North American and European elm populations in the 20th century. The highly susceptible English elm, also known as Atinian clone, suffered the highest mortality rates during the last pandemic event, probably due to its lack of genetic diversity. To study the DED pathosystem, we inoculated English elm ramets with O. novo-ulmi and evaluated xylem anatomy, molecular response, and disease symptoms. The high DED susceptibility of the clone was linked to xylem structure. The transcript levels changed significantly for 1,696 genes during O. novo-ulmi invasion. Genes covering different steps of the plant immune system were identified, many of which showed homology with Arabidopsis thaliana genes involved in systemic acquired resistance. Induction of several pathogenesis-related proteins and repression of fasciclin-like arabinogalactan proteins and other cell wall biosynthesis pathways evidence unbalanced costs between growth and defence mechanisms far from the inoculation point. This study sheds light on elm molecular defence mechanisms against DED.
由血管病原体引起的萎蔫病包括一些对树木影响最严重的胁迫。由真菌 Ophiostoma novo-ulmi 引起的荷兰榆树病(DED)在 20 世纪摧毁了北美和欧洲大部分榆树种群。高度易感的英国榆树,也称为 Atinian 克隆,在上一次大流行事件中死亡率最高,可能是由于其遗传多样性缺乏。为了研究 DED 病理系统,我们用 O. novo-ulmi 接种了英国榆树无性系,并评估了木质部解剖结构、分子反应和疾病症状。该克隆对 DED 的高易感性与木质部结构有关。在 O. novo-ulmi 入侵期间,有 1696 个基因的转录水平发生了显著变化。鉴定出覆盖植物免疫系统不同步骤的基因,其中许多基因与拟南芥中参与系统性获得抗性的基因具有同源性。一些与发病相关的蛋白质的诱导和纤维蛋白类似阿拉伯半乳聚糖蛋白的抑制以及其他细胞壁生物合成途径的抑制表明,远离接种点的生长和防御机制之间存在不平衡的代价。这项研究揭示了榆树对 DED 的分子防御机制。
