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4. A lateral organ boundaries domain transcription factor acts downstream of the auxin response factor 2 to control nodulation and root architecture in Medicago truncatula

Author

Kirolinko, Cristina, primary, Hobecker, Karen, additional, Cueva, Marianela, additional, Botto, Florencia, additional, Christ, Aurélie, additional, Niebel, Andreas, additional, Ariel, Federico, additional, Blanco, Flavio Antonio, additional, Crespi, Martín, additional, and Zanetti, María Eugenia, additional

Published
2024
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7. The CCAAT box-binding transcription factor NF-YA1 controls rhizobial infection

Author

Laporte, Philippe, Lepage, Agnes, Fournier, Joëlle, Catrice, Olivier, Moreau, Sandra, Jardinaud, Marie-Françoise, Mun, Jeong-Hwan, Larrainzar, Estibaliz, Cook, Douglas R, Gamas, Pascal, and Niebel, Andreas

Subjects
Genetics, 2.1 Biological and endogenous factors, Aetiology, Base Sequence, Gene Expression Regulation, Plant, Genetic Complementation Test, Medicago truncatula, Mutation, Phenotype, Plant Proteins, Root Nodules, Plant, Sinorhizobium meliloti, Symbiosis, Transcription Factors, CCAAT box-binding factor, infection, infection thread, NF-YA, nodule development, rhizobium, symbiosis, symbiosis., Plant Biology, Crop and Pasture Production, Plant Biology & Botany
Abstract

Symbiosis between legume plants and soil rhizobia culminates in the formation of a novel root organ, the 'nodule', containing bacteria differentiated as facultative nitrogen-fixing organelles. MtNF-YA1 is a Medicago truncatula CCAAT box-binding transcription factor (TF), formerly called HAP2-1, highly expressed in mature nodules and required for nodule meristem function and persistence. Here a role for MtNF-YA1 during early nodule development is demonstrated. Detailed expression analysis based on RNA sequencing, quantitiative real-time PCR (qRT-PCR), as well as promoter-β-glucuronidase (GUS) fusions reveal that MtNF-YA1 is first induced at the onset of symbiotic development during preparation for, and initiation and progression of, symbiotic infection. Moreover, using a new knock-out mutant, Mtnf-ya1-1, it is shown that MtNF-YA1 controls infection thread (IT) progression from initial root infection through colonization of nodule tissues. Extensive confocal and electronic microscopic observations suggest that the bulbous and erratic IT growth phenotypes observed in Mtnf-ya1-1 could be a consequence of the fact that walls of ITs in this mutant are thinner and less coherent than in the wild type. It is proposed that MtNF-YA1 controls rhizobial infection progression by regulating the formation and the wall of ITs.

Published
2014

14. Whole-genome landscape of Medicago truncatula symbiotic genes

Author

Pecrix, Yann, Staton, S. Evan, Sallet, Erika, Lelandais-Brière, Christine, Moreau, Sandra, Carrère, Sébastien, Blein, Thomas, Jardinaud, Marie-Françoise, Latrasse, David, Zouine, Mohamed, Zahm, Margot, Kreplak, Jonathan, Mayjonade, Baptiste, Satgé, Carine, Perez, Magali, Cauet, Stéphane, Marande, William, Chantry-Darmon, Céline, Lopez-Roques, Céline, Bouchez, Olivier, Bérard, Aurélie, Debellé, Frédéric, Muños, Stéphane, Bendahmane, Abdelhafid, Bergès, Hélène, Niebel, Andreas, Buitink, Julia, Frugier, Florian, Benhamed, Moussa, Crespi, Martin, Gouzy, Jérôme, and Gamas, Pascal

Published
2018
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28. Auxin Response Factor 2 (ARF2), ARF3, and ARF4 Mediate Both Lateral Root and Nitrogen Fixing Nodule Development in Medicago truncatula

Author

BLANCO, Flavio Antonio, ZANETTI, María Eugenia, KIROLINKO, Cristina, HOBECKER, Karen, WEN, Jiangqi, MYSORE, Kirankumar, NIEBEL, Andreas, BLANCO, Flavio, ZANETTI, María, Facultad de Ciencias Exactas [La Plata], Universidad Nacional de la Plata [Argentine] (UNLP), Technical University of Munich (TUM), Noble Research Institut, Laboratoire des Interactions Plantes Microbes Environnement (LIPME), Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), ANPCyT : PICT2016-0582, ANPCyT : PICT2017-0581, ANPCyT : PICT2016-0333, ANPCyT : PICT2017-0069, National Science Foundation (NSF), Consejo Nacional de Investigaciones Cientificas y Tecnicas (CONICET), IAL (International Associated Laboratory) NOCOSYM project, and Technische Universität Munchen - Université Technique de Munich [Munich, Allemagne] (TUM)

Subjects
0106 biological sciences, 0301 basic medicine, Biología, legumes, Organogenesis, Plant Science, lcsh:Plant culture, root architecture, 01 natural sciences, Rhizobia, Nod factor, 03 medical and health sciences, Auxin, miR390, lcsh:SB1-1110, nodulation, Transcription factor, Ciencias Exactas, Original Research, chemistry.chemical_classification, Sinorhizobium meliloti, auxin response factors, biology, Lateral root, food and beverages, Nod Factor, [SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanics, biology.organism_classification, Medicago truncatula, symbiosis, Cell biology, [SDV.BV.AP]Life Sciences [q-bio]/Vegetal Biology/Plant breeding, 030104 developmental biology, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, chemistry, tasiARFs, 010606 plant biology & botany
Abstract

Auxin Response Factors (ARFs) constitute a large family of transcription factors that mediate auxin-regulated developmental programs in plants. ARF2, ARF3, and ARF4 are post-transcriptionally regulated by the microRNA390 (miR390)/trans-acting small interference RNA 3 (TAS3) module through the action of TAS3-derived trans - acting small interfering RNAs (ta-siRNA). We have previously reported that constitutive activation of the miR390/TAS3 pathway promotes elongation of lateral roots but impairs nodule organogenesis and infection by rhizobia during the nitrogen-fixing symbiosis established between Medicago truncatula and its partner Sinorhizobium meliloti. However, the involvement of the targets of the miR390/TAS3 pathway, i.e., MtARF2, MtARF3, MtARF4a, and MtARF4b, in root development and establishment of the nitrogen-fixing symbiosis remained unexplored. Here, promoter:reporter fusions showed that expression of both MtARF3 and MtARF4a was associated with lateral root development; however, only the MtARF4a promoter was active in developing nodules. In addition, up-regulation of MtARF2, MtARF3, and MtARF4a/b in response to rhizobia depends on Nod Factor perception. We provide evidence that simultaneous knockdown of MtARF2, MtARF3, MtARF4a, and MtARF4b or mutation in MtARF4a impaired nodule formation, and reduced initiation and progression of infection events. Silencing of MtARF2, MtARF3, MtARF4a, and MtARF4b altered mRNA levels of the early nodulation gene nodulation signaling pathway 2 (MtNSP2). In addition, roots with reduced levels of MtARF2, MtARF3, MtARF4a, and MtARF4b, as well as arf4a mutant plants exhibited altered root architecture, causing a reduction in primary and lateral root length, but increasing lateral root density. Taken together, our results suggest that these ARF members are common key players of the morphogenetic programs that control root development and the formation of nitrogen-fixing nodules., Facultad de Ciencias Exactas, Instituto de Biotecnologia y Biologia Molecular

Published
2021
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30. Fungal lipochitooligosaccharide symbiotic signals in arbuscular mycorrhiza

Author

Maillet, Fabienne, Poinsot, Verena, Andre, Olivier, Puech-Pages, Virginie, Haouy, Alexandra, Gueunier, Monique, Cromer, Laurence, Giraudet, Delphine, Formey, Damien, Niebel, Andreas, Martinez, Eduardo Andres, Driguez, Hugues, Becard, Guillaume, and Denarie, Jean

Subjects
Symbiosis -- Research -- Physiological aspects, Roots (Botany) -- Research -- Physiological aspects, Mimosaceae -- Physiological aspects -- Research, Mycorrhizas -- Research -- Physiological aspects, Legumes -- Physiological aspects -- Research, Oligosaccharides -- Research -- Physiological aspects, Beans -- Physiological aspects -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Arbuscular mycorrhiza (AM) is a root endosymbiosis between plants and glomeromycete fungi. It is the most widespread terrestrial plant symbiosis, improving plant uptake of water and mineral nutrients. Yet, despite its crucial role in land ecosystems, molecular mechanisms leading to its formation are just beginning to be unravelled. Recent evidence suggests that AM fungi produce diffusible symbiotic signals. Here we show that Glomus intraradices secretes symbiotic signals that are a mixture of sulphated and non-sulphated simple lipochitooligosaccharides (LCOs), which stimulate formation of AM in plant species of diverse families (Fabaceae, Asteraceae and Umbelliferae). In the legume Medicago truncatula these signals stimulate root growth and branching by the symbiotic DMI signalling pathway. These findings provide a better understanding of the evolution of signalling mechanisms involved in plant root endosymbioses and will greatly facilitate their molecular dissection. They also open the way to using these natural and very active molecules in agriculture., Arbuscular mycorrhiza (AM) is a root endosymbiosis between fungi of the ancient phylum Glomeromycota and terrestrial plants. AM is formed by 70-90% of land plant species, improving the uptake of [...]

Published
2011
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33. MtHAP2-1 is a key transcriptional regulator of symbiotic nodule development regulated by microRNA169 in Medicago truncatula

Author

Combier, Jean-Philippe, Frugier, Florian, De Billy, Francoise, Boualem, Adnane, El-Yahyaoui, Fikri, Moreau, Sandra, Vernie, Tatiana, Ott, Thomas, Gamas, Pascal, Crespi, Martin, and Niebel, Andreas

Subjects
Symbiosis -- Research, Alfalfa -- Genetic aspects, DNA binding proteins -- Structure, DNA binding proteins -- Chemical properties, Biological sciences
Abstract

A new transcription factor of the CCAAT-binding family, MtHAP2-1, is identified in the model legume Medicago truncatula, for which RNA interference (RNAi) and in situ hybridization experiments have indicated a key role during nodule development. The complementary expression pattern of miR169 and MtHAP2-1 and the phenotype of miR-resistant MtHAP2-1 nodules have suggested that the miR169-mediated restriction of MtHAP2-1 expression to the nodule meristematic zone is necessary for the differentiation of nodule cells.

Published
2006

36. Expression profiling in Medicago truncatula identifies more than 750 genes differentially expressed during nodulation, including many potential regulators of the symbiotic program (1) ([w])

Author

El Yahyaoui, Fikri, Kuster, Helge, Amor, Besma Ben, Hohnjec, Natalija, Puhler, Alfred, Becker, Anke, Gouzy, Jerome, Vernie, Tatiana, Gough, Clare, Niebel, Andreas, Godiard, Laurence, and Gamas, Pascal

Subjects
Beans -- Genetic aspects, Beans -- Research, Legumes -- Genetic aspects, Legumes -- Research, Mimosaceae -- Genetic aspects, Mimosaceae -- Research, Gene expression -- Research, Symbiosis -- Research, Biological sciences, Science and technology
Published
2004

37. Characterization of four lectin-like receptor kinases expressed in roots of Medicago truncatula. Structure, location, regulation of expression, and potential role in the symbiosis with Sinorhizobium meliloti (1)

Author

Navarro-Gochicoa, Maria-Teresa, Camut, Sylvie, Timmers, Antonius C.J., Niebel, Andreas, Herve, Christine, Boutet, Emmanuel, Bono, Jean-Jacques, Imberty, Anne, and Cullimore, Julie V.

Subjects
Alfalfa -- Genetic aspects, Alfalfa -- Physiological aspects, Host-bacteria relationships -- Research, Plant lectins -- Research, Biological sciences, Science and technology
Published
2003

40. Lotus japonicus Nuclear Factor YA1 , a nodule emergence stage‐specific regulator of auxin signalling

Author

Shrestha, Arina, primary, Zhong, Sihui, additional, Therrien, Jasmine, additional, Huebert, Terry, additional, Sato, Shusei, additional, Mun, Terry, additional, Andersen, Stig U., additional, Stougaard, Jens, additional, Lepage, Agnes, additional, Niebel, Andreas, additional, Ross, Loretta, additional, and Szczyglowski, Krzysztof, additional

Published
2020
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41. A gene expression atlas of the model legume Medicago truncatula

Author

Benedito, Vagner A., Torres-Jerez, Ivone, Murray, Jeremy D., Andriankaja, Andry, Allen, Stacy, Kakar, Klementina, Wandrey, Maren, Verdier, Jérôme, Zuber, Hélène, Ott, Thomas, Moreau, Sandra, Niebel, Andreas, Frickey, Tancred, Weiller, Georg, He, Ji, Dai, Xinbin, Zhao, Patrick X., Tang, Yuhong, and Udvardi, Michael K.

Published
2008

47. Lotus japonicus Nuclear Factor YA1, a nodule emergence stage‐specific regulator of auxin signalling.

Author

Shrestha, Arina, Zhong, Sihui, Therrien, Jasmine, Huebert, Terry, Sato, Shusei, Mun, Terry, Andersen, Stig U., Stougaard, Jens, Lepage, Agnes, Niebel, Andreas, Ross, Loretta, and Szczyglowski, Krzysztof

Subjects
LOTUS japonicus, AUXIN, CYTOLOGY, ROOT-tubercles, ROOT formation, MEDICAGO truncatula, CELL division
Abstract

Summary: Organogenesis of legume root nodules begins with the nodulation factor‐dependent stimulation of compatible root cells to initiate divisions, signifying an early nodule primordium formation event. This is followed by cellular differentiation, including cell expansion and vascular bundle formation, and we previously showed that Lotus japonicus NF‐YA1 is essential for this process, presumably by regulating three members of the SHORT INTERNODES/STYLISH (STY) transcription factor gene family.In this study, we used combined genetics, genomics and cell biology approaches to characterize the role of STY genes during root nodule formation and to test a hypothesis that they mediate nodule development by stimulating auxin signalling.We show here that L. japonicus STYs are required for nodule emergence. This is attributed to the NF‐YA1‐dependent regulatory cascade, comprising STY genes and their downstream targets, YUCCA1 and YUCCA11, involved in a local auxin biosynthesis at the post‐initial cell division stage. An analogous NF‐YA1/STY regulatory module seems to operate in Medicago truncatula in association with the indeterminate nodule patterning.Our data define L. japonicus and M. truncatula NF‐YA1 genes as important nodule emergence stage‐specific regulators of auxin signalling while indicating that the inductive stage and subsequent formation of early nodule primordia are mediated through an independent mechanism(s). [ABSTRACT FROM AUTHOR]

Published
2021
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49. Trans-regulation of the expression of the transcription factor MtHAP2-1 by a uORF controls root nodule development

Author

Combier, Jean Philippe, de Billy, Francois, Gamas, Pascal, Niebel, Andreas, and Rivas, Susana

Subjects
Open reading frames -- Analysis, Genetic regulation -- Research, Biological sciences
Abstract

The role of upstream ORFs (uORFs) in the regulation of gene expression is discussed. Findings reveal that miR169 and uORF1p play essential, sequential and nonredundant roles in regulating MtHAP2-1 expression.

Published
2008

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