Root Nodules, Plant (growth & development) < Root Nodules, Plant (metabolism) < Root Nodules, Plant (microbiology)

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List of bibliographic references indexed by Root Nodules, Plant (metabolism)

Number of relevant bibliographic references: 23.
[0-20] [0 - 20][0 - 23][20-22][20-40]

Ident.	Authors (with country if any)	Title
000297 (2019)	Kazunori Sakamoto [Japon] ; Natsuko Ogiwara [Japon] ; Tomomitsu Kaji [Japon] ; Yurie Sugimoto [Japon] ; Mitsuru Ueno [Japon] ; Masatoshi Sonoda [Japon] ; Akihiro Matsui [Japon] ; Junko Ishida [Japon] ; Maho Tanaka [Japon] ; Yasushi Totoki [Japon] ; Kazuo Shinozaki [Japon] ; Motoaki Seki [Japon]	Transcriptome analysis of soybean (Glycine max) root genes differentially expressed in rhizobial, arbuscular mycorrhizal, and dual symbiosis.
000557 (2019)	Saul Jimenez-Jimenez [Mexique] ; Kenji Hashimoto [Japon] ; Olivia Santana [Mexique] ; Jesús Aguirre ; Kazuyuki Kuchitsu [Japon] ; Luis Cárdenas [Mexique]	Emerging roles of tetraspanins in plant inter-cellular and inter-kingdom communication.
000595 (2019)	Saul Jimenez-Jimenez [Mexique] ; Olivia Santana [Mexique] ; Fernando Lara-Rojas [Mexique] ; Manoj-Kumar Arthikala [Mexique] ; Elisabeth Armada [Mexique] ; Kenji Hashimoto [Japon] ; Kazuyuki Kuchitsu [Japon] ; Sandra Salgado [Mexique] ; Jesús Aguirre [Mexique] ; Carmen Quinto [Mexique] ; Luis Cárdenas [Mexique]	Differential tetraspanin genes expression and subcellular localization during mutualistic interactions in Phaseolus vulgaris.
000A32 (2018)	Danfeng Jin [République populaire de Chine] ; Xianwen Meng [République populaire de Chine] ; Yue Wang [République populaire de Chine] ; Jingjing Wang [République populaire de Chine] ; Yuhua Zhao [République populaire de Chine] ; Ming Chen [République populaire de Chine]	Computational investigation of small RNAs in the establishment of root nodules and arbuscular mycorrhiza in leguminous plants.
000F43 (2016)	Miwa Nagae [Japon] ; Martin Parniske [Allemagne] ; Masayoshi Kawaguchi [Japon] ; Naoya Takeda [Japon]	The relationship between thiamine and two symbioses: Root nodule symbiosis and arbuscular mycorrhiza.
000F54 (2016)	Miwa Nagae [Allemagne] ; Martin Parniske [Allemagne] ; Masayoshi Kawaguchi [Allemagne] ; Naoya Takeda [Japon]	The Thiamine Biosynthesis Gene THI1 Promotes Nodule Growth and Seed Maturation.
000F55 (2016)	Marion R. Cerri ; Lisa Frances ; Audrey Kelner ; Joëlle Fournier ; Patrick H. Middleton ; Marie-Christine Auriac ; Kirankumar S. Mysore ; Jiangqi Wen ; Monique Erard ; David G. Barker ; Giles E. Oldroyd ; Fernanda De Carvalho-Niebel [France]	The Symbiosis-Related ERN Transcription Factors Act in Concert to Coordinate Rhizobial Host Root Infection.
001149 (2016)	Daniel J. Ballhorn [États-Unis] ; Martin Sch Dler [Allemagne] ; Jacob D. Elias [États-Unis] ; Jess A. Millar [États-Unis] ; Stefanie Kautz [États-Unis]	Friend or Foe-Light Availability Determines the Relationship between Mycorrhizal Fungi, Rhizobia and Lima Bean (Phaseolus lunatus L.).
001465 (2015)	Marjatta Raudaskoski [Finlande] ; Erika Kothe	Novel findings on the role of signal exchange in arbuscular and ectomycorrhizal symbioses.
001578 (2015)	Jussi Heinonsalo [Finlande] ; Hui Sun [Finlande] ; Minna Santalahti [Finlande] ; Kirsi B Cklund [Finlande] ; Pertti Hari [Finlande] ; Jukka Pumpanen [Finlande]	Evidences on the Ability of Mycorrhizal Genus Piloderma to Use Organic Nitrogen and Deliver It to Scots Pine.
001621 (2015)	James M C. Jones ; Lindsey Clairmont ; Emily S. Macdonald ; Catherine A. Weiner ; R J Neil Emery ; Frédérique C. Guinel [Canada]	E151 (sym15), a pleiotropic mutant of pea (Pisum sativum L.), displays low nodule number, enhanced mycorrhizae, delayed lateral root emergence, and high root cytokinin levels.
001B08 (2013)	Yuan-Jing Li [République populaire de Chine] ; Zhi-Lei Liu ; Xing-Yuan He ; Chun-Jie Tian	[Nitrogen metabolism and translocation in arbuscular mycorrhizal symbiote and its ecological implications].
001B98 (2013)	Nicholas J. Roberts [États-Unis] ; Giulia Morieri ; Gurpreet Kalsi ; Alan Rose ; Jiri Stiller ; Anne Edwards ; Fang Xie ; Peter M. Gresshoff ; Giles E D. Oldroyd ; J Allan Downie ; Marilynn E. Etzler	Rhizobial and mycorrhizal symbioses in Lotus japonicus require lectin nucleotide phosphohydrolase, which acts upstream of calcium signaling.
001C95 (2013)	Giulia Morieri [Royaume-Uni] ; Eduardo A. Martinez ; Andrzej Jarynowski ; Hugues Driguez ; Richard Morris ; Giles E D. Oldroyd ; J Allan Downie	Host-specific Nod-factors associated with Medicago truncatula nodule infection differentially induce calcium influx and calcium spiking in root hairs.
001D84 (2013)	Naoya Takeda [Japon] ; Syusaku Tsuzuki ; Takuya Suzaki ; Martin Parniske ; Masayoshi Kawaguchi	CERBERUS and NSP1 of Lotus japonicus are common symbiosis genes that modulate arbuscular mycorrhiza development.
001F41 (2012)	Leonard Muriithi Kiirika [Allemagne] ; Hannah Friederike Bergmann ; Christine Schikowsky ; Diana Wimmer ; Joschka Korte ; Udo Schmitz ; Karsten Niehaus ; Frank Colditz	Silencing of the Rac1 GTPase MtROP9 in Medicago truncatula stimulates early mycorrhizal and oomycete root colonizations but negatively affects rhizobial infection.
002139 (2012)	Jérémie Bazin [France] ; Pilar Bustos-Sanmamed ; Caroline Hartmann ; Christine Lelandais-Brière ; Martin Crespi	Complexity of miRNA-dependent regulation in root symbiosis.
002182 (2012)	Peter E. Mortimer [République populaire de Chine] ; Maria A. Pérez-Fernández ; Alex J. Valentine	Arbuscular mycorrhiza maintains nodule function during external NH4+ supply in Phaseolus vulgaris (L.).
002477 (2011)	Paola Bonfante [Italie] ; Natalia Requena	Dating in the dark: how roots respond to fungal signals to establish arbuscular mycorrhizal symbiosis.
002B18 (2009)	Naoya Takeda [Allemagne] ; Shusei Sato ; Erika Asamizu ; Satoshi Tabata ; Martin Parniske	Apoplastic plant subtilases support arbuscular mycorrhiza development in Lotus japonicus.
002D47 (2008)	Mari Banba [Japon] ; Caroline Gutjahr ; Akio Miyao ; Hirohiko Hirochika ; Uta Paszkowski ; Hiroshi Kouchi ; Haruko Imaizumi-Anraku	Divergence of evolutionary ways among common sym genes: CASTOR and CCaMK show functional conservation between two symbiosis systems and constitute the root of a common signaling pathway.

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