Charvet-Candela V, Hitchin S, Ernst D, Sandermann H, Marmeisse R, Gay G
Université Lyon 1, UMR d'Ecologie Microbienne, Bâtiment A. Lwoff, 43 boulevard du 11 Novembre 1918, F-69622 Villeurbanne Cedex, France.
Coventry University, School of Science of the Environment, Priory street, Coventry CV1 5FB, UK.
New Phytol. 2002 Jun;154(3):769-777. doi: 10.1046/j.1469-8137.2002.00423.x.
• In an attempt to determine whether fungal auxin affects host plant gene expression during mycorrhizal formation, an auxin upregulated cDNA, Pp-iaa88, was isolated by differential screening of a cDNA library made from auxin-treated Pinus pinaster roots. • Pp-iaa88 codes for a polypeptide that shares extensive homology to auxin-inducible Aux/IAA proteins, which are supposed to act as transcription factors. Cycloheximide did not inhibit auxin-induced mRNA accumulation, indicating that Pp-iaa88 upregulation is a primary (direct) auxin response. • The level of Pp-iaa88 transcripts in roots increased following inoculation with either an indoleacetic acid-overproducing mutant or a wild-type strain of the ectomycorrhizal fungus Hebeloma cylindrosporum. With both strains, mRNA accumulation was detectable as soon as fungal hyphae reached the root and it increased during differentiation of symbiotic structures. The kinetics of Pp-iaa88 transcript accumulation was closely connected with the dynamics of symbiosis establishment and was more rapid with the mutant than with the wild-type strain. • As a putative transcription factor expressed at the very early stages of symbiosis establishment, Pp-iaa88 could play a key role in mycorrhizal formation.
• 为了确定真菌生长素在菌根形成过程中是否影响宿主植物基因表达,通过差异筛选生长素处理的海岸松根制成的cDNA文库,分离出一个生长素上调的cDNA,即Pp-iaa88。
• Pp-iaa88编码一种与生长素诱导的Aux/IAA蛋白具有广泛同源性的多肽,Aux/IAA蛋白被认为作为转录因子发挥作用。放线菌酮不抑制生长素诱导的mRNA积累,表明Pp-iaa88上调是一种初级(直接)生长素反应。
• 用吲哚乙酸高产突变体或外生菌根真菌柱状环柄菇的野生型菌株接种后,根中Pp-iaa88转录本水平升高。对于这两种菌株,一旦真菌菌丝到达根部,mRNA积累就可检测到,并且在共生结构分化过程中增加。Pp-iaa88转录本积累的动力学与共生建立的动态密切相关,并且突变体比野生型菌株更快。
• 作为在共生建立的非常早期阶段表达的一种假定转录因子,Pp-iaa88可能在菌根形成中起关键作用。
