内生菌丝区隔化是子囊菌与根细胞成功共生的必要条件

Lobna Abdellatif , Sadok Bouzid , Susan Kaminskyj , Vladimir Vujanovic
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引用次数: 23

摘要

在可持续和有机农业系统中,根内生真菌被视为替代化肥和农药的有希望的替代品。真菌内生菌的结构形成在与植物根系的胞内共生关系中起着关键作用。为了比较小麦子囊菌内生真菌的形态,我们分析了活根细胞和死根细胞皮层内菌丝的内生发育过程中的生长形态。用共聚焦激光扫描显微镜(CLSM)表征乳紫红染色根内真菌细胞形态。细胞形态规律性Ireg和细胞生长方向iidr,是量化真菌形态变化的指标。活根内生真菌的Ireg和idr值变化较大,定殖丰度较低,定殖模式呈斑块状;而死根内生真菌的细胞形态一致,且多平行于根轴生长。结、卷和囊泡结构在活根中占主导地位,被认为是共生功能器官。最后,活根中菌丝分裂的增加可能表明内生子囊菌群的局部特化。结果表明,该方法可推广应用于其他分离真菌共生体(如担子菌)。后者是根据我们的结果和其他最近的发现来讨论的。
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Endophytic hyphal compartmentalization is required for successful symbiotic Ascomycota association with root cells

Root endophytic fungi are seen as promising alternatives to replace chemical fertilizers and pesticides in sustainable and organic agriculture systems. Fungal endophytes structure formations play key roles in symbiotic intracellular association with plant-roots. To compare the morphologies of Ascomycete endophytic fungi in wheat, we analyzed growth morphologies during endophytic development of hyphae within the cortex of living vs. dead root cells. Confocal laser scanning microscopy (CLSM) was used to characterize fungal cell morphology within lactofuchsin-stained roots. Cell form regularity Ireg and cell growth direction Idir, indexes were used to quantify changes in fungal morphology. Endophyte fungi in living roots had a variable Ireg and Idir values, low colonization abundance and patchy colonization patterns, whereas the same endophyte species in dead (γ-irradiated) roots had consistent form of cells and mostly grew parallel to the root axis. Knot, coil and vesicle structures dominated in living roots, as putative symbiotic functional organs. Finally, an increased hypha septation in living roots might indicate local specialization within endophytic Ascomycota. Our results suggested that the applied method could be expanded to other septate fungal symbionts (e.g. Basidiomycota). The latter is discussed in light of our results and other recent discoveries.

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