Phytopathology. 2003 Apr;93(4):451-7. doi: 10.1094/PHYTO.2003.93.4.451.
ABSTRACT The infection of Arabidopsis thaliana roots with the obligate parasite Orobanche ramosa represents a useful model for a study of the molecular events involved in the host plant response to a parasitic plant attack. To avoid analysis problems due to the subterranean development of O. ramosa, we developed two in vitro co-culture systems: O. ramosa seedlings infesting Arabidopsis plantlet roots and callus tissues. We were then able to investigate the expression patterns of some host plant genes selected among genes known to be involved in metabolic pathways and resistance mechanisms activated during several plant-pathogen interactions including ethylene, isoprenoid, phenylpropanoid, and jasmonate biosynthesis pathways, oxidative stress responses, and pathogenesis-related proteins. Molecular analyses were carried out using polymerase chain reaction amplification methods allowing semiquantitative evaluation of transcript accumulation during early (first hours) and late (15 days) stages of infestation, in whole roots or parts close to the parasite attachment site. In A. thaliana, O. ramosa induced most of the general response signaling pathways in a transient manner even before its attachment to A. thaliana roots. However, no salicylic acid-dependent defense is observed because no activation of systemic acquired resistance markers is detectable, whereas genes, co-regulated by jasmonate and ethylene, do display enhanced expression.
拟南芥根被专性寄生植物列当侵染,是研究植物对寄生植物攻击的分子事件的有用模型。为避免由于列当属植物在地下的发育而产生的分析问题,我们开发了两种体外共培养系统:列当属幼苗侵染拟南芥幼苗根和愈伤组织。然后,我们能够研究一些宿主植物基因的表达模式,这些基因是从已知参与代谢途径和在几种植物-病原体相互作用中激活的抗性机制的基因中选择的,包括乙烯、类异戊二烯、苯丙烷和茉莉酸生物合成途径、氧化应激反应和与发病机制相关的蛋白质。分子分析采用聚合酶链反应扩增方法进行,允许在侵染的早期(最初几小时)和晚期(15 天)阶段,在整个根部或靠近寄生虫附着部位的部分,对半定量评估转录物的积累。在拟南芥中,列当属以瞬态方式诱导大多数一般反应信号通路,甚至在其附着到拟南芥根之前。然而,由于检测不到系统获得性抗性标记物的激活,因此没有观察到水杨酸依赖性防御,而由茉莉酸和乙烯共同调节的基因则显示出增强的表达。
