Mora-Romero Guadalupe A, Gonzalez-Ortiz Maria A, Quiroz-Figueroa Francisco, Calderon-Vazquez Carlos L, Medina-Godoy Sergio, Maldonado-Mendoza Ignacio, Arroyo-Becerra Analilia, Perez-Torres Anahí, Alatorre-Cobos Fulgencio, Sanchez Federico, Lopez-Meyer Melina
Instituto Politecnico Nacional CIIDIR-Sinaloa, Depto. Biotecnologia Agricola, Blvd. Juan de Dios Batiz Paredes 250, Guasave PO 81101, Mexico.
Instituto Politecnico Nacional CIBA-Tlaxcala, Ex-Hacienda San Juan Molino Carretera Estatal Tecuexcomac-Tepetitla Km 1.5 Tlaxcala PO 90700, Mexico.
Funct Plant Biol. 2014 Feb;42(1):18-30. doi: 10.1071/FP14101.
The arbuscular mycorrhizal (AM) symbiosis is an intimate association between specific soil-borne fungi and the roots of most land plants. AM colonisation elicits an enhanced defence resistance against pathogens, known as mycorrhizal-induced resistance (MIR). This mechanism locally and systemically sensitises plant tissues to boost their basal defence response. Although a role for oxylipins in MIR has been proposed, it has not yet been experimentally confirmed. In this study, when the common bean (Phaseolus vulgaris L.) lipoxygenase PvLOX2 was silenced in roots of composite plants, leaves of silenced plants lost their capacity to exhibit MIR against the foliar pathogen Sclerotinia sclerotiorum, even though they were colonised normally. PvLOX6, a LOX gene family member, is involved in JA biosynthesis in the common bean. Downregulation of PvLOX2 and PvLOX6 in leaves of PvLOX2 root-silenced plants coincides with the loss of MIR, suggesting that these genes could be involved in the onset and spreading of the mycorrhiza-induced defence response.
丛枝菌根(AM)共生是特定土壤真菌与大多数陆地植物根系之间的紧密联系。AM定殖引发对病原体的增强防御抗性,即菌根诱导抗性(MIR)。这种机制在局部和系统水平上使植物组织敏感,以增强其基础防御反应。尽管有人提出氧脂素在MIR中起作用,但尚未得到实验证实。在本研究中,当复合植物根系中的普通菜豆(Phaseolus vulgaris L.)脂氧合酶PvLOX2沉默时,沉默植物的叶片失去了对叶部病原菌核盘菌表现出MIR的能力,尽管它们正常定殖。PvLOX6是LOX基因家族成员,参与普通菜豆中的茉莉酸生物合成。PvLOX2根系沉默植物叶片中PvLOX2和PvLOX6的下调与MIR的丧失同时发生,表明这些基因可能参与菌根诱导防御反应起始和传播。
