Arrighi Jean-François, Godfroy Olivier, de Billy Françoise, Saurat Olivier, Jauneau Alain, Gough Clare
Laboratoire des Interactions Plantes-Microorganismes, Unité Mixte de Recherche 441/2594 L'Institut National de la Recherche Agronomique/Centre National de la Recherche Scientifique, F-31326 Castanet-Tolosan, France.
Proc Natl Acad Sci U S A. 2008 Jul 15;105(28):9817-22. doi: 10.1073/pnas.0710273105. Epub 2008 Jul 9.
Rhizobia can infect roots of host legume plants and induce new organs called nodules, in which they fix atmospheric nitrogen. Infection generally starts with root hair curling, then proceeds inside newly formed, intracellular tubular structures called infection threads. A successful symbiotic interaction relies on infection threads advancing rapidly at their tips by polar growth through successive cell layers of the root toward developing nodule primordia. To identify a plant component that controls this tip growth process, we characterized a symbiotic mutant of Medicago truncatula, called rpg for rhizobium-directed polar growth. In this mutant, nitrogen-fixing nodules were rarely formed due to abnormally thick and slowly progressing infection threads. Root hair curling was also abnormal, indicating that the RPG gene fulfils an essential function in the process whereby rhizobia manage to dominate the process of induced tip growth for root hair infection. Map-based cloning of RPG revealed a member of a previously unknown plant-specific gene family encoding putative long coiled-coil proteins we have called RRPs (RPG-related proteins) and characterized by an "RRP domain" specific to this family. RPG expression was strongly associated with rhizobial infection, and the RPG protein showed a nuclear localization, indicating that this symbiotic gene constitutes an important component of symbiotic signaling.
根瘤菌能够感染宿主豆科植物的根部并诱导形成名为根瘤的新器官,在根瘤中根瘤菌固定大气中的氮。感染通常始于根毛卷曲,然后在新形成的细胞内管状结构(称为感染线)内进行。成功的共生相互作用依赖于感染线通过极性生长在其尖端迅速推进,穿过根部的连续细胞层,朝向发育中的根瘤原基。为了鉴定控制这种尖端生长过程的植物成分,我们对蒺藜苜蓿的一个共生突变体进行了表征,该突变体称为rpg(根瘤菌定向极性生长)。在这个突变体中,由于感染线异常粗大且进展缓慢,很少形成固氮根瘤。根毛卷曲也不正常,这表明RPG基因在根瘤菌成功主导根毛感染诱导的尖端生长过程中发挥着重要作用。基于图谱的RPG克隆揭示了一个以前未知的植物特异性基因家族的成员,该家族编码我们称为RRP(RPG相关蛋白)的推定长卷曲螺旋蛋白,并以该家族特有的“RRP结构域”为特征。RPG表达与根瘤菌感染密切相关,并且RPG蛋白显示出核定位,表明这个共生基因构成了共生信号传导的重要组成部分。