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Rapid nitrogen transfer in the Sorghum bicolor-Glomus mosseae arbuscular mycorrhizal symbiosis

机译：高粱双色球果丛枝菌根共生中氮的快速转移

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摘要

We have recently identified two genes coding for ammonium transporters (AMT) in Sorghum bicolor that were induced in roots colonized by arbuscular mycorrhizal (AM) fungi. To improve our understanding of the dynamics of ammonium transport in this symbiosis, we studied the transfer of soil-ammonium-derived ¹⁵N to S. bicolor plants via the Glomus mosseae fungal mycelium in compartmented microcosms. The ¹⁵NH⁴⁺-containing hyphal compartment was inaccessible to the roots in the plant compartment. ¹⁵N label concentrations significantly increased in plant roots and leaves already 48 h after exposure of the AM fungus to the ¹⁵NH⁴⁺ substrate, attesting an efficient symbiotic N transfer between the symbiotic partners and further highlighting that AM symbiosis represents an important component of plant nitrogen nutrition.

机译：我们最近发现了在高粱双色中编码铵转运蛋白（AMT）的两个基因，这些基因在丛枝菌根（AM）真菌定植的根中被诱导。为了增进我们对这种共生中铵转运动力学的理解，我们研究了土壤氨衍生的^{15 N通过隔间缩影中的Glomus mosseae真菌菌丝体转移到S. bicolor植物上的过程。含有^{15 NH ^{4 + 的菌丝区无法进入植物区系的根部。将AM真菌暴露于^{15 NH ^{4 + 基质后48小时，植物根和叶片中的^{15 N标签浓度显着增加，证明共生伙伴之间有效的共生氮转移，并进一步强调AM共生是植物氮营养的重要组成部分。}}}}}}

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期刊名称 Plant Signaling Behavior
作者
Sally Koegel; Thomas Boller; Moritz F. Lehmann; Andres Wiemken; Pierre-Emmanuel Courty;
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年(卷),期 2013(8),8
年度 2013
页码 e25229
总页数 3
原文格式 PDF
正文语种
中图分类医学行为学;
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专利

1. Rapid nitrogen transfer in the Sorghum bicolor-Glomus mosseae arbuscular mycorrhizal symbiosis. [J] . Koegel S., Boller T., Lehmann M. F., Plant signaling & behavior . 2013,第8期

机译：高粱双色-glomos mosseae丛枝菌根共生中的快速氮转移。
2. Regulation of the nitrogen transfer pathway in the arbuscular mycorrhizal symbiosis: Gene characterization and the coordination of expression with nitrogen flux [J] . Tian C., Kasiborski B., Koul R., Plant physiology . 2010,第3期

机译：丛枝菌根共生中氮转移途径的调控：基因表征及表达与氮通量的协调
3. Effects of mixed cropping, earthworms (Pheretima sp.), and arbuscular mycorrhizal fungi (Glomus mosseae) on plant yield, mycorrhizal colonization rate, soil microbial biomass, and nitrogenase activity of free-living rhizosphere bacteria. [J] . Zarea M. J., Ghalavand A., Goltapeh E. M., Pedobiologia . 2009,第4期

机译：混作，earth（Pheretima sp。）和丛枝菌根真菌（Glomus mosseae）对植物产量，菌根定殖率，土壤微生物生物量和自由根际细菌的固氮酶活性的影响。
4. The Roles of Arbuscular Mycorrhizal Fungus Glomus Mosseae and Festuca Arundinacea in Phytostabilization of Lead/Zinc Tailings [C] . Gu Hai-Hong, Li Fu-Ping, Yu Qiang, International Conference onaterials Science and Chemical Engineering . 2013

机译：丛枝菌根菌植物血管血管生殖器和Festuca arundinacea在铅/锌尾矿植物中的作用
5. The molecular and biochemical basis of nitrogen transfer by the model arbuscular mycorrhizal fungus Rhizophagus irregularis. [D] . Al-Deeb, Taghleb Muhammad. 2015

机译：模型丛枝菌根真菌不规则根瘤菌转移氮的分子和生化基础。
6. Regulation of the Nitrogen Transfer Pathway in the Arbuscular Mycorrhizal Symbiosis: Gene Characterization and the Coordination of Expression with Nitrogen Flux [O] . Chunjie Tian, Beth Kasiborski, Raman Koul, 2010

机译：丛枝菌根共生中氮转移途径的调控：基因表征和氮通量的表达协调。
7. Regulation of the Nitrogen Transfer Pathway in the Arbuscular Mycorrhizal Symbiosis: Gene Characterization and the Coordination of Expression with Nitrogen Flux1[W][OA] [O] . Tian, Chunjie, Kasiborski, Beth, Koul, Raman, 2010

机译：丛枝菌根共生中氮转移途径的调控：基因特征及其与氮通量1的表达协调[W] [OA]

Rapid nitrogen transfer in the Sorghum bicolor-Glomus mosseae arbuscular mycorrhizal symbiosis

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