Carbon availability triggers fungal nitrogen uptake and transport in arbuscular mycorrhizal symbiosis

共生 丛枝菌根真菌 氮气 丛枝菌根 碳纤维 菌根真菌 环境科学 农学 化学 生物 材料科学 接种 园艺 细菌 复合材料 有机化学 复合数 遗传学
作者
Carl R. Fellbaum,Emma W. Gachomo,Yugandhar Beesetty,Sulbha Choudhari,Gary D. Strahan,Philip E. Pfeffer,E. Toby Kiers,Heike Bücking
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:109 (7): 2666-2671 被引量:411
标识
DOI:10.1073/pnas.1118650109
摘要

The arbuscular mycorrhizal (AM) symbiosis, formed between the majority of land plants and ubiquitous soil fungi of the phylum Glomeromycota, is responsible for massive nutrient transfer and global carbon sequestration. AM fungi take up nutrients from the soil and exchange them against photosynthetically fixed carbon (C) from the host. Recent studies have demonstrated that reciprocal reward strategies by plant and fungal partners guarantee a "fair trade" of phosphorus against C between partners [Kiers ET, et al. (2011) Science 333:880-882], but whether a similar reward mechanism also controls nitrogen (N) flux in the AM symbiosis is not known. Using mycorrhizal root organ cultures, we manipulated the C supply to the host and fungus and followed the uptake and transport of N sources in the AM symbiosis, the enzymatic activities of arginase and urease, and fungal gene expression in the extraradical and intraradical mycelium. We found that the C supply of the host plant triggers the uptake and transport of N in the symbiosis, and that the increase in N transport is orchestrated by changes in fungal gene expression. N transport in the symbiosis is stimulated only when the C is delivered by the host across the mycorrhizal interface, not when C is supplied directly to the fungal extraradical mycelium in the form of acetate. These findings support the importance of C flux from the root to the fungus as a key trigger for N uptake and transport and provide insight into the N transport regulation in the AM symbiosis.
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