Navarro-Gochicoa Maria-Teresa, Camut Sylvie, Timmers Antonius C J, Niebel Andreas, Herve Christine, Boutet Emmanuel, Bono Jean-Jacques, Imberty Anne, Cullimore Julie V
Laboratoire des Interactions Plantes-Microorganismes, Institut National de la Recherche Agronomique-Centre National de la Recherche Scientifique, Boite Postale 27, 31326 Castanet-Tolosan cedex, France.
Plant Physiol. 2003 Dec;133(4):1893-910. doi: 10.1104/pp.103.027680. Epub 2003 Nov 20.
To study the role of LecRK (lectin-like receptor kinase) genes in the legumerhizobia symbiosis, we have characterized the four Medicago truncatula Gaernt. LecRK genes that are most highly expressed in roots. Three of these genes, MtLecRK7;1, MtLecRK7;2, and MtLecRK7;3, encode proteins most closely related to the Class A LecRKs of Arabidopsis, whereas the protein encoded by the fourth gene, MtLecRK1;1, is most similar to a Class B Arabidopsis LecRK. All four genes show a strongly enhanced root expression, and detailed studies on MtLecRK1;1 and MtLecRK7;2 revealed that the levels of their mRNAs are increased by nitrogen starvation and transiently repressed after either rhizobial inoculation or addition of lipochitooligosaccharidic Nod factors. Studies of the MtLecRK1;1 and MtLecRK7;2 proteins, using green fluorescent protein fusions in transgenic M. truncatula roots, revealed that they are located in the plasma membrane and that their central transmembrane-spanning helix is required for correct sorting. Moreover, their lectin-like domains appear to be highly glycosylated. Of the four proteins, only MtLecRK1;1 shows a high conservation of key residues implicated in monosaccharide binding, and molecular modeling revealed that this protein may be capable of interacting with Nod factors. However, no increase in Nod factor binding was found in roots overexpressing a fusion in which the kinase domain of this protein had been replaced with green fluorescent protein. Roots expressing this fusion protein however showed an increase in nodule number, suggesting that expression of MtLecRK1;1 influences nodulation. The potential role of LecRKs in the legume-rhizobia symbiosis is discussed.
为了研究类受体激酶(LecRK)基因在豆科植物与根瘤菌共生中的作用,我们对蒺藜苜蓿(Medicago truncatula Gaernt.)中在根中表达量最高的4个LecRK基因进行了表征。其中3个基因,即MtLecRK7;1、MtLecRK7;2和MtLecRK7;3,编码的蛋白质与拟南芥的A类LecRK最为相似,而第4个基因MtLecRK1;1编码的蛋白质与拟南芥的B类LecRK最为相似。所有这4个基因在根中的表达均显著增强,对MtLecRK1;1和MtLecRK7;2的详细研究表明,它们的mRNA水平在氮饥饿时升高,而在接种根瘤菌或添加脂壳寡糖结瘤因子后会短暂受到抑制。利用绿色荧光蛋白融合技术在转基因蒺藜苜蓿根中对MtLecRK1;1和MtLecRK7;2蛋白质进行研究,结果表明它们位于质膜上,且其中心跨膜螺旋对于正确分选是必需的。此外,它们的类凝集素结构域似乎高度糖基化。在这4种蛋白质中,只有MtLecRK1;1在参与单糖结合的关键残基上具有高度保守性,分子建模表明该蛋白质可能能够与结瘤因子相互作用。然而,在过表达将该蛋白质激酶结构域替换为绿色荧光蛋白的融合蛋白的根中,未发现结瘤因子结合增加。然而,表达这种融合蛋白的根中根瘤数量增加,这表明MtLecRK1;1的表达会影响结瘤。本文讨论了LecRKs在豆科植物与根瘤菌共生中的潜在作用。