Ditengou F A, Béguiristain T, Lapeyrie F
Equipe de Microbiologie Forestière, Centre de Recherches de Nancy, Institut National de la Recherche Agronomique, Champenoux, France.
Planta. 2000 Oct;211(5):722-8. doi: 10.1007/s004250000342.
Hypaphorine, the major indolic compound isolated from the ectomycorrhizal fungus Pisolithus tinctorius, controls the elongation rate of root hairs. At inhibitory concentrations (100 microM), hypaphorine induced a transitory swelling of root hair tips of Eucalyptus globulus Labill. ssp. bicostata. When the polar tip growth resumed, a characteristic deformation was still visible on elongating hairs. At higher hypaphorine concentrations (500 microM and greater), root hair elongation stopped, only 15 min after application. However, root hair initiation from trichoblasts was not affected by hypaphorine. Hypaphorine activity could not be mimicked by related molecules such as indole-3-acetic acid (IAA) or tryptophan. While IAA had no activity on root hair elongation, IAA was able to restore the tip growth of root hairs following inhibition by hypaphorine. These results suggest that hypaphorine and endogenous IAA counteract in controlling root hair elongation. During ectomycorrhiza development, the absence of root hairs might be due in part to fungal release of molecules, such as hypaphorine, that inhibit the elongation of root hairs.
从外生菌根真菌彩色豆马勃中分离出的主要吲哚类化合物N-甲基色胺,可控制根毛的伸长速率。在抑制浓度(100微摩尔)下,N-甲基色胺会引起蓝桉亚种双肋蓝桉根毛尖端的短暂肿胀。当极性顶端生长恢复时,伸长的根毛上仍可见特征性变形。在更高的N-甲基色胺浓度(500微摩尔及以上)下,施用后仅15分钟根毛伸长就停止了。然而,根毛从毛母细胞的起始不受N-甲基色胺影响。相关分子如吲哚-3-乙酸(IAA)或色氨酸无法模拟N-甲基色胺的活性。虽然IAA对根毛伸长没有活性,但IAA能够在根毛伸长受N-甲基色胺抑制后恢复其顶端生长。这些结果表明,N-甲基色胺和内源性IAA在控制根毛伸长方面相互拮抗。在外生菌根发育过程中,根毛缺失可能部分归因于真菌释放的分子,如N-甲基色胺,其会抑制根毛伸长。
