Effect of arsenic on legumes: analysis in the model Medicago truncatula–Ensifer interaction (Englisch)
- Neue Suche nach: Pajuelo, Eloísa
- Neue Suche nach: Rodríguez‐Llorente, Ignacio D.
- Neue Suche nach: Caviedes, Miguel A.
- Neue Suche nach: de Bruijn, Frans
- Neue Suche nach: Pajuelo, Eloísa
- Neue Suche nach: Rodríguez‐Llorente, Ignacio D.
- Neue Suche nach: Caviedes, Miguel A.
In:
The Model Legume Medicago truncatula
;
268-280
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2019
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ISBN:
- Aufsatz/Kapitel (Buch) / Elektronische Ressource
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Titel:Effect of arsenic on legumes: analysis in the model Medicago truncatula–Ensifer interaction
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Beteiligte:de Bruijn, Frans ( Herausgeber:in ) / Pajuelo, Eloísa ( Autor:in ) / Rodríguez‐Llorente, Ignacio D. ( Autor:in ) / Caviedes, Miguel A. ( Autor:in )
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Erschienen in:The Model Legume Medicago truncatula ; 268-280
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Verlag:
- Neue Suche nach: John Wiley & Sons, Inc.
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Erscheinungsort:Hoboken, NJ, USA
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Erscheinungsdatum:27.12.2019
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Format / Umfang:13 pages
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ISBN:
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DOI:
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Medientyp:Aufsatz/Kapitel (Buch)
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Format:Elektronische Ressource
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Sprache:Englisch
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Schlagwörter:
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Datenquelle:
Inhaltsverzeichnis E-Book
Die Inhaltsverzeichnisse werden automatisch erzeugt und basieren auf den im Index des TIB-Portals verfügbaren Einzelnachweisen der enthaltenen Beiträge. Die Anzeige der Inhaltsverzeichnisse kann daher unvollständig oder lückenhaft sein.
- 1
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General introductionde Bruijn, Frans J. et al. | 2019
- 7
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A snapshot of functional genetic studies in Medicago truncatulaKang, Yun / Li, Minguye / Sinharoy, Senjuti / Verdier, Jerome et al. | 2019
- 31
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Medicago truncatula as an ecological, evolutionary, and forage legume model: new directions forwardvon Wettberg, Eric J.B. / Ray‐Mukherjee, Jayanti / Moriuchi, Ken / Porter, Stephanie S. et al. | 2019
- 41
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Seed development: introductionde Bruijn, Frans J. et al. | 2020
- 44
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A physiological perspective of late maturation processes and establishment of seed quality in Medicago truncatula seedsVerdier, Jerome / Leprince, Olivier / Buitink, Julia et al. | 2019
- 55
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Medicago truncatula, an informative model to investigate the DNA damage response during seed germinationMacovei, Anca / Pagano, Andrea / Forti, Chiara / Araújo, Susana / Balestrazzi, Alma et al. | 2019
- 61
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Transcriptional networks in early Medicago truncatula embryo developmentRose, Ray J. et al. | 2019
- 71
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Embryo development and the oil and protein bodies in Medicago truncatulaSong, Youhong / Wang, Xin‐Ding / Smith, Nathan / Wheeler, Simon / Rose, Ray J. et al. | 2019
- 80
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Role of thioredoxins and NADP‐thioredoxin reductases in legume seeds and seedlingsMontrichard, Françoise / Frendo, Pierre / Rey, Pascal / Buchanan, Bob et al. | 2019
- 92
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Seed shape quantification in the model legumes: methods and applicationsCervantes, Emilio / Saadaoui, Ezzeddine / Tocino, Ángel / Gómez, José Javier Martín et al. | 2019
- 99
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The underlying processes governing seed size plasticity: impact of endoploidy on seed coat development and cell expansion in Medicago truncatulaOchatt, S. / Abirached‐Darmency, M. et al. | 2019
- 117
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Root development: introductionde Bruijn, Frans J. et al. | 2020
- 118
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Nitrate signaling pathway via the transporter MtNPF6.8 involves abscisic acid for the regulation of primary root elongation in Medicago truncatulaLimami, Anis M. / Morère‐Le Paven, Marie‐Christine et al. | 2019
- 125
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SCARECROW and SHORT‐ROOT show an overlapping expression pattern in the Medicago truncatula nodule central meristemFranssen, Henk J. / Kulikova, Olga / Wan, Xi / Adams, Auke / Heidstra, Renze et al. | 2019
- 130
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Lateral root formation and patterning in Medicago truncatulaBensmihen, Sandra et al. | 2019
- 136
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Modulation of root elongation by abscisic acid and LATERAL ROOT ORGAN DEFECTIVE/NUMEROUS INFECTIONS AND POLYPHENOLICS via reactive oxygen species in Medicago truncatulaHarris, Jeanne M. / Zhang, Chang et al. | 2019
- 144
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FYVE and PH protein domains present in MtZR1, a PRAF protein, modulate the development of roots and symbiotic root nodules of Medicago truncatula via potential phospholipids signalingHopkins, Julie / Pierre, Olivier / Frendo, Pierre / Boncompagni, Eric et al. | 2019
- 153
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Leaf development: introductionde Bruijn, Frans J. et al. | 2020
- 154
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Compound leaf development in Medicago truncatulaChen, Rujin et al. | 2019
- 173
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Mechanistic insights into STENOFOLIA‐mediated leaf blade outgrowth in Medicago truncatulaZhang, Fei / Wang, Hui / Tadege, Million et al. | 2019
- 181
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Flower development: introductionde Bruijn, Frans J. et al. | 2020
- 182
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Genetic control of flowering time in legumesWeller, James L. / Macknight, Richard C. et al. | 2019
- 189
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Forward and reverse screens to identify genes that control vernalization and flowering time in Medicago truncatulaJaudal, Mauren / Thomson, Geoffrey / Zhang, Lulu / Che, Chong / Wen, Jiangqi / S. Mysore, Kirankumar / Tadege, Million / Putterill, Joanna et al. | 2019
- 197
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MtNAM regulates floral organ identity and lateral organ separation in Medicago truncatulaCheng, Xiaofei / Peng, Jianling / Chen, Rujin / Mysore, Kirankumar S. / Wen, Jiangqi et al. | 2019
- 207
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Biosynthesis of natural products: introductionde Bruijn, Frans J. et al. | 2019
- 209
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Organization and regulation of triterpene saponin biosynthesis in Medicago truncatulaMertens, Jan / Goossens, Alain et al. | 2019
- 220
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Saponins in Medicago truncatula: structures and activitiesSivignon, Catherine / Rahioui, Isabelle / Silva, Pedro da et al. | 2019
- 225
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Saponin synthesis in Medicago truncatula plants: CYP450‐mediated formation of sapogenins in the different plant organsCarelli, Maria / Confalonieri, Massimo / Tava, Aldo / Biazzi, Elisa / Calderini, Ornella / Abbruscato, Pamela / Cammareri, Maria / Scotti, Carla et al. | 2019
- 237
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Abiotic stress: introductionde Bruijn, Frans J. et al. | 2020
- 240
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Genomic and transcriptomic basis of salinity adaptation and transgenerational plasticity in Medicago truncatulaFriesen, Maren L. et al. | 2019
- 243
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Isolation and functional characterization of salt‐stress induced RCI2‐like genes from Medicago sativa and Medicago truncatulaLong, Ruicai / Zhang, Fan / Zhang, Tiejun / Kang, Junmei / Yang, Qingchuan et al. | 2019
- 253
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Rhizobial symbiosis influences response to early salt and drought stress of the Medicago truncatula root proteomeTuretschek, Reinhard / Staudinger, Christiana / Wienkoop, Stefanie et al. | 2019
- 261
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Deciphering the role of the alternative respiration under salt stress in Medicago truncatulaDel‐Saz, Nestor F / Palma, Francisco / Herrera‐Cervera, Jose Antonio / Ribas‐Carbo, Miquel et al. | 2019
- 268
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Effect of arsenic on legumes: analysis in the model Medicago truncatula–Ensifer interactionPajuelo, Eloísa / Rodríguez‐Llorente, Ignacio D. / Caviedes, Miguel A. et al. | 2019
- 281
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Dual oxidative stress control involving antioxidant defense system and alternative oxidase pathways within the model legume Medicago truncatula under biotic and abiotic constraintsMhadhbi, Haythem et al. | 2019
- 289
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Interaction with root and foliar pathogens: introductionde Bruijn, Frans J. et al. | 2020
- 293
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Medicago truncatula and other annual Medicago spp. – interactions with root and foliar fungal, oomycete, and viral pathogensBarbetti, Martin J. / Pei You, Ming / Jones, Roger A.C. et al. | 2019
- 307
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Deciphering resistance mechanisms to the root rot disease of legumes caused by Aphanomyces euteiches with Medicago truncatula genetic and genomic resourcesJacquet, Christophe / Bonhomme, Maxime et al. | 2019
- 317
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Medicago truncatula as a model organism to study conserved and contrasting aspects of symbiotic and pathogenic signaling pathwaysGavrin, Aleksandr / Schornack, Sebastian et al. | 2019
- 331
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Tools and strategies for genetic and molecular dissection of Medicago truncatula resistance against Fusarium wilt diseaseThatcher, Louise F. / Kidd, Brendan N. / Singh, Karam B. et al. | 2019
- 340
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Medicago truncatula as a model host for genetic and molecular dissection of resistance to Rhizoctonia solaniAnderson, Jonathan P. / Kidd, Brendan N. / Singh, Karam B. et al. | 2019
- 346
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Phosphorus control of plant interactions with mutualistic and pathogenic microorganisms: a mini‐review and a case study of the Medicago truncatula B9 mutantThalineau, Elise / Fournier, Carine / Jeandroz, Sylvain / Truong, Hoai‐Nam et al. | 2019
- 355
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The Medicago truncatula – Ralstonia solanacearum pathosystem opens up many research perspectivesVailleau, Fabienne et al. | 2019
- 362
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Aphid stress: introductionde Bruijn, Frans J. et al. | 2020
- 363
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Medicago truncatula–aphid interactionsKamphuis, Lars G. / Gao, Ling‐Ling / Turnbull, Colin G.N. / Singh, Karam B. et al. | 2019
- 369
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Medicago truncatula–pea aphid interaction in the context of global climate changeSun, Yucheng / Guo, Huijuan / Ge, Feng et al. | 2019
- 377
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Interactions with other pathogens and parasites: introductionde Bruijn, Frans J. et al. | 2020
- 378
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Characterization of defense mechanisms to parasitic plants in the model Medicago truncatulaCastillejo, M. Ángeles / Fernández‐Aparicio, Mónica / Rubiales, Diego et al. | 2019
- 384
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Medicago truncatula host/nonhost legume rust interactionsPatto, Maria Carlota Vaz / Rubiales, Diego et al. | 2019
- 390
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Medicago truncatula as a model to study powdery mildew resistanceRispail, Nicolas / Prats, Elena / Rubiales, Diego et al. | 2019
- 398
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Antifungal defensins from Medicago truncatula: structure–activity relationships, modes of action, and biotech applicationsVelivelli, Siva L.S. / Islam, Kazi T. / Shah, Dilip M. et al. | 2019
- 409
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Leaf me alone: Medicago truncatula defenses against foliar lepidopteran herbivoresBede, Jacqueline C. et al. | 2019
- 429
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Symbiotic nitrogen fixation: introductionde Bruijn, Frans J. et al. | 2019
- 432
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Signaling and early infection events in the rhizobium–legume symbiosis: introductionde Bruijn, Frans J. et al. | 2020
- 434
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The role of the flavonoid pathway in Medicago truncatula in root nodule formation. A reviewMathesius, Ulrike et al. | 2019
- 439
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Expression and function of the Medicago truncatula lysin motif receptor‐like kinase (LysM‐RLK) gene family in the legume–rhizobia symbiosisBono, Jean‐Jacques / Fliegmann, Judith / Gough, Clare / Cullimore, Julie et al. | 2019
- 448
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Nod factor hydrolysis in Medicago truncatula: signal inactivation or formation of secondary signals?Cai, Jie / Wang, Yi‐Han / Xie, Zhi‐Ping / Staehelin, Christian et al. | 2019
- 453
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The Medicago truncatula E3 ubiquitin ligase PUB1 negatively regulates rhizobial and arbuscular mycorrhizal symbioses through its ubiquitination activityVernié, Tatiana / Mbengue, Malick / Hervé, Christine et al. | 2019
- 461
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Encoding nuclear calcium oscillations in root symbiosesCooke, Aisling / Charpentier, Myriam et al. | 2019
- 467
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Signaling and infection events in the arbuscular mycorrhiza–Medicago truncatula symbiosis: introductionde Bruijn, Frans J. et al. | 2020
- 471
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The symbiosis of Medicago truncatula with arbuscular mycorrhizal fungiDursun, Nazli Merve / Nouri, Eva / Reinhardt, Didier et al. | 2019
- 485
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Role of phytohormones in arbuscular mycorrhiza developmentDas, Debatosh / Gutjahr, Caroline et al. | 2019
- 501
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Laser microdissection of arbuscular mycorrhizaLimpens, Erik et al. | 2019
- 513
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Truncated arbuscules formed in the Medicago truncatula mutant MtHA1 maintain mycorrhiza‐induced resistanceZhang, Haoqiang / Franken, Philipp et al. | 2019
- 521
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The common symbiotic signaling pathway (CSSP or SYM)de Bruijn, Frans J. et al. | 2019
- 523
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The common symbiotic signaling pathwayDebellé, Frédéric et al. | 2019
- 529
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Contribution of model legumes to knowledge of actinorhizal symbiosisBogusz, Didier / Franche, Claudine et al. | 2019
- 537
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DELLA proteins are common components of the symbiotic rhizobial and mycorrhizal signaling pathwaysXie, Qiujin / Wang, Ertao et al. | 2019
- 543
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Genes induced during the rhizobial infection process: introductionde Bruijn, Frans J. et al. | 2020
- 547
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Comparative analysis of tubulin cytoskeleton rearrangements in nodules of Medicago truncatula and Pisum sativumTsyganov, Viktor E. / Kitaeva, Anna B. / Demchenko, Kirill N. et al. | 2019
- 554
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Post‐transcriptional reprogramming during root nodule symbiosisReynoso, Mauricio Alberto / Traubenik, Soledad / Hobecker, Karen / Blanco, Flavio / Zanetti, María Eugenia et al. | 2019
- 563
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MtKNOX3 – a possible regulator of cytokinin pathway during nodule development in Medicago truncatulaAzarakhsh, M. / Lebedeva, Maria A. / Lutova, L.A. et al. | 2019
- 571
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Features of Sinorhizobium meliloti exopolysaccharide succinoglycan required for successful invasion of Medicago truncatula nodulesJones, Kathryn M. et al. | 2019
- 579
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Infection thread development in model legumesGage, Daniel J. et al. | 2019
- 589
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Rhizobial release, symbiosomes, and bacteroid formation: introductionde Bruijn, Frans J. et al. | 2020
- 591
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The Defective in Nitrogen Fixation genes of Medicago truncatula reveal key features in the intracellular association with rhizobiaWu, Xiaoyi / Wang, Dong et al. | 2019
- 600
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Terminal bacteroid differentiation in the Medicago–Rhizobium interaction – a tug of war between plant and bacteriaHaag, Andreas F. / Mergaert, Peter et al. | 2019
- 617
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More than antimicrobial: nodule cysteine‐rich peptides maintain a working balance between legume plant hosts and rhizobia bacteria during nitrogen‐fixing symbiosisPan, Huairong et al. | 2019
- 627
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Functional dissection of Medicago truncatula NODULES WITH ACTIVATED DEFENSE 1 in maintenance of rhizobial endosymbiosisYu, Haixiang / Wang, Chao / Cai, Liuyang / Huang, Bei / Zhang, Zhongming et al. | 2019
- 637
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Which role for Medicago truncatula non‐specific lipid transfer proteins in rhizobial infection?Santi, Chiara / Molesini, Barbara / Pandolfini, Tiziana et al. | 2019
- 645
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Syntaxin MtSYP132 defines symbiotic membranes in Medicago truncatula root nodulesAvadhani, Madhavi / Catalano, Christina M. / Sherrier, D. Janine et al. | 2019
- 650
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Nodule and bacteroid functioning: introductionde Bruijn, Frans J. et al. | 2020
- 652
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Metal transport in Medicago truncatula nodule rhizobia‐infected cellsAbreu, Isidro / Escudero, Viviana / Montiel, Jesús / Castro‐Rodríguez, Rosario / González-Guerrero, Manuel et al. | 2019
- 665
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Inhibition of glutamine synthetase leads to a fast transcriptional activation of defense responses in root nodulesSeabra, Ana Rita / Carvalho, Helena et al. | 2019
- 674
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Complex dynamics and synchronization of N‐feedback and C alteration in the nodules of Medicago truncatula under abundant N or sub‐optimal P supplySulieman, Saad et al. | 2019
- 681
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Bacteroid senescence: introductionde Bruijn, Frans J. et al. | 2020
- 683
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Involvement of proteases during nodule senescence in leguminous plantsYang, Li / Syska, Camille / Garcia, Isabelle / Frendo, Pierre / Boncompagni, Eric et al. | 2019
- 694
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Senescence of Medicago truncatula root nodules: NO balanceBlanquet, Pauline / Bruand, Claude / Meilhoc, Eliane et al. | 2019
- 701
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Medicago truncatula ESN1, a key regulator of nodule senescence and symbiotic nitrogen fixationChen, Yuhui / Xi, Jiejun / Chen, Rujin et al. | 2019
- 706
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Structure of indeterminate Medicago truncatula nodules: introductionde Bruijn, Frans J. et al. | 2020
- 708
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Development and structures of the meristems of roots and indeterminate nodules: introductionde Bruijn, Frans J. et al. | 2020
- 709
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Organization and ultrastructure of Medicago truncatula root apical meristemSkawińska, Monika / Sańko‐Sawczenko, Izabela / Dmitruk, Dominika / Czarnocka, Weronika / Łotocka, Barbara et al. | 2019
- 726
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Organization and ultrastructure of Medicago truncatula root nodule meristemSkawińska, Monika / Sańko‐Sawczenko, Izabela / Czarnocka, Weronika / Łotocka, Barbara et al. | 2019
- 741
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Hormones and the rhizobial and mycorrhizal symbioses: introductionde Bruijn, Frans J. et al. | 2019
- 743
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Phytohormone regulation of Medicago truncatula–rhizobia interactions. A reviewMathesius, Ulrike et al. | 2019
- 753
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Plant hormones play common and divergent roles in nodulation and arbuscular mycorrhizal symbiosesFoo, Eloise et al. | 2019
- 766
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Auxins and other phytohormones as signals in arbuscular mycorrhiza formationLudwig‐Müller, Jutta et al. | 2019
- 777
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Ethylene‐responsive miRNAs in roots of Medicago truncatula identified by high‐throughput sequencing at the whole genome levelChen, Lei / Wang, Tianzuo / Zhao, Mingui / Zhang, Wenhao et al. | 2019
- 785
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Hormone‐induced nodule‐like structures in land plants: an updateThomas, Jacklyn / Mukherjee, Arijit et al. | 2019
- 794
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Structural studies of Medicago truncatula proteins participating in cytokinin signal transduction and nodulationRuszkowski, Milosz et al. | 2019
- 802
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Identifying auxin response factor genes and their co‐expression networks in Medicago truncatulaBurks, David J. / Azad, Rajeev K. et al. | 2019
- 809
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Autoregulation of nodule numbers (AON) in Medicago truncatula: introductionde Bruijn, Frans J. et al. | 2019
- 811
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The autoregulation gene SUNN mediates changes in nodule and lateral root formation in response to nitrogen through changes of shoot‐to‐root auxin transportMathesius, Ulrike / van Noorden, Giel E. / Jin, Jian et al. | 2019
- 817
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Genetic map of Medicago truncatulade Bruijn, Frans J. et al. | 2019
- 821
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The genome sequence of Medicago truncatula: introductionde Bruijn, Frans J. et al. | 2020
- 822
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An improved genome release (Version Mt4.0) for the model legume Medicago truncatulaTown, Christopher D. et al. | 2019
- 828
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The sequenced genomes of Medicago truncatulaYoung, Nevin D. / Zhou, Peng et al. | 2019
- 835
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Quantitative trait loci mapping: introductionde Bruijn, Frans J. et al. | 2020
- 837
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QTL analyses of seed germination and seedling pre‐emergence growth under abiotic stresses in Medicago truncatulaTeulat, Béatrice et al. | 2019
- 849
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Unraveling the determinants of freezing tolerance in Medicago truncatula: a first step toward improving the response of crop legumes to freezing stress using translational genomicsTayeh, Nadim / Avia, Komlan / Lejeune‐Hénaut, Isabelle / Delbreil, Bruno et al. | 2019
- 862
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Genome‐wide association and Medicago truncatula: introductionde Bruijn, Frans J. et al. | 2020
- 863
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Multi‐locus GWAS and genome‐wide composite interval mapping (GCIM)Zhang, Yuan‐Ming et al. | 2019
- 870
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Genome‐wide association mapping and population genomic features in Medicago truncatulaBonhomme, Maxime / Jacquet, Christophe et al. | 2019
- 882
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The use of CRISPR/Cas9 as a reverse genetics tool to validate genome‐wide association candidatesCurtin, Shaun J. / Tiffin, Peter / Young, Nevin D. et al. | 2019
- 887
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Transposons, gene instability, and gene tagging: introductionde Bruijn, Frans J. et al. | 2020
- 888
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Class II transposable elements in Medicago truncatulaGrzebelus, Dariusz et al. | 2019
- 893
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Medicago truncatula and evolution: introductionde Bruijn, Frans J. et al. | 2020
- 895
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Comparative genomics suggests that an ancestral polyploidy event leads to enhanced root nodule symbiosis in the PapilionoideaeZhang, Li / Li, Qigang / Dunwell, Jim M. / Zhang, Yuan‐Ming et al. | 2019
- 903
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Patterns of polymorphism, recombination, and selection in Medicago truncatulaPaape, Timothy et al. | 2019
- 911
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Genome‐wide determination of poly(A) sites in Medicago truncatula: evolutionary conservation of alternative poly(A) site choiceWu, Xiaohui / Hunt, Arthur G. / Li, Qingshun Q. et al. | 2019
- 921
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The Medicago truncatula genome and translational genomics: introductionde Bruijn, Frans J. et al. | 2020
- 923
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GBS‐based genome‐wide association and genomic selection for alfalfa (Medicago sativa) forage quality improvementBiazzi, Elisa / Nazzicari, Nelson / Pecetti, Luciano / Annicchiarico, Paolo et al. | 2019
- 928
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Genomic and genetic markers in Medicago truncatula: introductionde Bruijn, Frans J. et al. | 2020
- 930
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Development and characterization of simple sequence repeat (SSR) markers based on RNA‐sequencing of Medicago sativa and in silico mapping onto the Medicago truncatula genomeWang, Zan et al. | 2019
- 936
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Genome‐wide development of microRNA‐based SSR markers in Medicago truncatula with their transferability analysis and utilization in related legume speciesLiu, Wenxian / Min, Xueyang / Wang, Yanrong et al. | 2019
- 946
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Small RNAs in Medicago truncatula: introductionde Bruijn, Frans J. et al. | 2020
- 948
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Small RNA diversity and roles in model legumesProust, Hélène / Moreau, Jérémy / Crespi, Martin / Hartmann, Caroline / Lelandais‐Brière, Christine et al. | 2019
- 963
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Small RNA deep sequencing identifies novel and salt‐stress‐regulated microRNAs from roots of Medicago sativa and Medicago truncatulaLong, Ruicai / Li, Mingna / Kang, Junmei / Zhang, Tiejun / Sun, Yan / Yang, Qingchuan et al. | 2019
- 975
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MiR171h restricts root symbioses and shows, like its target NSP2, a complex transcriptional regulation in Medicago truncatulaDevers, Emanuel A. et al. | 2019
- 987
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MicroRNA‐based biotechnology for Medicago improvementZhang, Baohong / Unver, Turgay et al. | 2019
- 991
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Expression and regulation of small RNAs in the plant–microorganism symbioses in Medicago truncatulaJin, Danfeng / Meng, Xianwen / Wang, Yue / Wang, Jingjing / Zhao, Yuhua / Chen, Ming et al. | 2019
- 1003
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Mutagenesis, forward, and reverse genetics in Medicago truncatula: introductionde Bruijn, Frans J. et al. | 2020
- 1006
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Isolation and characterization of non‐transposon symbiotic nitrogen fixing mutants of Medicago truncatulaKontra‐Kováts, Gyöngyi Zs. / Fodor, Lili / Horváth, Beatrix / Domonkos, Ágota / Iski, Gergely / Chen, Yuhui / Chen, Rujin / Kaló, Péter et al. | 2019
- 1015
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Targeted mutagenesis by an optimized agrobacterium‐delivered CRISPR/Cas9 system in the model legume Medicago truncatulaMeng, Yingying / Wang, Chongnan / Yin, Pengcheng / Zhu, Butuo / Zhang, Pengcheng / Niu, Lifang / Lin, Hao et al. | 2019
- 1019
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Whole genome sequencing of symbiotic nitrogen fixation mutants from the Medicago truncatula Tnt1 mutant population to identify relevant Tnt1 and MERE1 insertion sitesVeerappan, Vijaykumar / Troiani, Taylor / Dickstein, Rebecca et al. | 2019
- 1027
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A simple method for genetic crossing in Medicago truncatulaBosseno, Marc / Lambert, Annie / Beucher, Daniel / Le Gleuher, Marie / Aubry, Catherine / Pauly, Nicolas / Montrichard, Françoise / Boscari, Alexandre et al. | 2019
- 1033
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An artificial‐microRNA system based on an endogenous microRNA of Medicago truncatula to unravel the function of root endosymbiosis related genesDevers, Emanuel A. et al. | 2019
- 1043
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Transcriptomics in Medicago truncatula: introductionde Bruijn, Frans J. et al. | 2020
- 1045
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Synergism and symbioses: unpacking complex mutualistic species interactions using transcriptomic approachesHernandez, Damian / Kiesewetter, Kasey N. / Palakurty, Sathvik / Stinchcombe, John R. / Afkhami, Michelle E. et al. | 2019
- 1055
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Comparative genomic and transcriptomic analyses of legume genes controlling the nodulation processPingault, Lise / Qiao, Zhenzhen / Libault, Marc et al. | 2019
- 1062
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Transcriptomic profiling of genes and pathways associated with osmotic and salt stress responses in Medicago truncatulaWang, Tianzuo / Zhang, Xiuxiu / Liu, Min / Zhang, Wen‐Hao et al. | 2019
- 1069
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Medicago truncatula proteomics: introductionde Bruijn, Frans J. et al. | 2020
- 1070
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Organelle protein changes in arbuscular mycorrhizal Medicago truncatula roots as deciphered by subcellular proteomicsRecorbet, Ghislaine / Lemaître‐Guillier, Christelle / Wipf, Daniel et al. | 2019
- 1081
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Leveraging proteome and phosphoproteome to unravel the molecular mechanisms of legume–rhizobia symbiosisJayaraman, Dhileepkumar / Venkateshwaran, Muthusubramanian / Ané, Jean‐Michel et al. | 2019
- 1087
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Application of bottom‐up and top‐down proteomics in Medicago spp.Gutsch, Annelie / Sergeant, Kjell / Renaut, Jenny et al. | 2019
- 1096
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Medicago truncatula: local response of the root nodule proteome to drought stressGonzález, Esther M. / Wienkoop, Stefanie / Staudinger, Christiana / Lyon, David / Gil‐Quintana, Erena et al. | 2019
- 1102
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Comparative proteomic analysis reveals differential root proteins in Medicago sativa and Medicago truncatula in response to salt stressLong, Ruicai / Li, Mingna / Zhang, Tiejun / Kang, Junmei / Sun, Yan / Yang, Qingchuan et al. | 2019
- 1112
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Medicago truncatula metabolomics: introductionde Bruijn, Frans J. et al. | 2020
- 1113
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Multifaceted investigation of metabolites during nitrogen fixation in Medicago truncatula via high resolution MALDI ‐ MS imaging and ESI ‐ MSGemperline, Erin / Keller, Caitlin / Li, Lingjun et al. | 2019
- 1121
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Medicago truncatula databases and computer programs: introductionde Bruijn, Frans J. et al. | 2019
- 1123
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MTGD: the Medicago truncatula genome databaseKrishnakumar, Vivek et al. | 2019
- 1131
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Transcriptional factor databases for legume plantsOng, Quang / Le, Van‐Anh / Thao, Nguyen Phuong / Tran, Lam‐Son Phan et al. | 2019
- 1137
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Plant Omics Data Center and CATchUP: web databases for effective gene mining utilizing public RNA‐Seq‐based transcriptome dataShenton, Matt / Kudo, Toru / Kobayashi, Masaaki / Nakamura, Yukino / Ohyanagi, Hajime / Yano, Kentaro et al. | 2019
- 1147
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Medicago truncatula and transformationde Bruijn, Frans J. et al. | 2019
- 1149
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Recent advances in Medicago spp. genetic engineering strategiesConfalonieri, Massimo / Sparvoli, Francesca et al. | 2019
- 1162
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Agrobacterium tumefaciens transformation of Medicago truncatula cell suspensionsIantcheva, Anelia / Revalska, Miglena et al. | 2019
- 1170
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The Jemalong 2HA line used for Medicago truncatula transformation: hormonology and epigeneticsRose, Ray J. / Song, Youhong et al. | 2019
- 1179
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Creation of composite plants – transformation of Medicago truncatula rootsHause, Bettina / Yadav, Heena et al. | 2019
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Index| 2019
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Front Matter Volume II| 2019
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Front Matter Volume I| 2019