A Tripartite Interaction among the Basidiomycete Rhodotorula mucilaginosa, N2-Fixing Endobacteria, and Rice Improves Plant Nitrogen Nutrition

Nitrogen (N) limits crop yield, and improvement of N nutrition remains a key goal for crop research; one approach to improve N nutrition is identifying plant-interacting, N2-fixing microbes. Rhodotorula mucilaginosa JGTA-S1 is a basidiomycetous yeast endophyte of narrowleaf cattail (Typha angustifol...

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Veröffentlicht in:	The Plant cell 2020-02, Vol.32 (2), p.486
Hauptverfasser:	Paul, Karnelia, Saha, Chinmay, Nag, Mayurakshi, Mandal, Drishti, Naiya, Haraprasad, Sen, Diya, Mitra, Souvik, Kumar, Mohit, Bose, Dipayan, Mukherjee, Gairik, Naskar, Nabanita, Lahiri, Susanta, Das Ghosh, Upal, Tripathi, Sudipta, Sarkar, Mousumi Poddar, Banerjee, Manidipa, Kleinert, Aleysia, Valentine, Alexander J, Tripathy, Sucheta, Sinharoy, Senjuti, Seal, Anindita
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container_title	The Plant cell
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creator	Paul, Karnelia Saha, Chinmay Nag, Mayurakshi Mandal, Drishti Naiya, Haraprasad Sen, Diya Mitra, Souvik Kumar, Mohit Bose, Dipayan Mukherjee, Gairik Naskar, Nabanita Lahiri, Susanta Das Ghosh, Upal Tripathi, Sudipta Sarkar, Mousumi Poddar Banerjee, Manidipa Kleinert, Aleysia Valentine, Alexander J Tripathy, Sucheta Sinharoy, Senjuti Seal, Anindita
description	Nitrogen (N) limits crop yield, and improvement of N nutrition remains a key goal for crop research; one approach to improve N nutrition is identifying plant-interacting, N2-fixing microbes. Rhodotorula mucilaginosa JGTA-S1 is a basidiomycetous yeast endophyte of narrowleaf cattail (Typha angustifolia). JGTA-S1 could not convert nitrate or nitrite to ammonium but harbors diazotrophic (N2-fixing) endobacteria (Pseudomonas stutzeri) that allow JGTA-S1 to fix N2 and grow in a N-free environment; moreover, P. stutzeri dinitrogen reductase was transcribed in JGTA-S1 even under adequate N. Endobacteria-deficient JGTA-S1 had reduced fitness, which was restored by reintroducing P. stutzeri. JGTA-S1 colonizes rice (Oryza sativa), significantly improving its growth, N content, and relative N-use efficiency. Endofungal P. stutzeri plays a significant role in increasing the biomass and ammonium content of rice treated with JGTA-S1; also, JGTA-S1 has better N2-fixing ability than free-living P. stutzeri and provides fixed N to the plant. Genes involved in N metabolism, N transporters, and NODULE INCEPTION-like transcription factors were upregulated in rice roots within 24 h of JGTA-S1 treatment. In association with rice, JGTA-S1 has a filamentous phase and P. stutzeri only penetrated filamentous JGTA-S1. Together, these results demonstrate an interkingdom interaction that improves rice N nutrition.
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Rhodotorula mucilaginosa JGTA-S1 is a basidiomycetous yeast endophyte of narrowleaf cattail (Typha angustifolia). JGTA-S1 could not convert nitrate or nitrite to ammonium but harbors diazotrophic (N2-fixing) endobacteria (Pseudomonas stutzeri) that allow JGTA-S1 to fix N2 and grow in a N-free environment; moreover, P. stutzeri dinitrogen reductase was transcribed in JGTA-S1 even under adequate N. Endobacteria-deficient JGTA-S1 had reduced fitness, which was restored by reintroducing P. stutzeri. JGTA-S1 colonizes rice (Oryza sativa), significantly improving its growth, N content, and relative N-use efficiency. Endofungal P. stutzeri plays a significant role in increasing the biomass and ammonium content of rice treated with JGTA-S1; also, JGTA-S1 has better N2-fixing ability than free-living P. stutzeri and provides fixed N to the plant. 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title	A Tripartite Interaction among the Basidiomycete Rhodotorula mucilaginosa, N2-Fixing Endobacteria, and Rice Improves Plant Nitrogen Nutrition
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