Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza

Hohnjec, N; Vieweg, ME; Pühler, Alfred; Becker, Anke; Küster, Helge

Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza

Hohnjec N, Vieweg ME, Pühler A, Becker A, Küster H (2005)
Plant Physiol 137(4): 1283-1301.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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DOI

https://doi.org/10.1104/pp.104.056572

Autor*in

Hohnjec, N; Vieweg, ME; Pühler, Alfred^UniBi ; Becker, Anke; Küster, Helge

Einrichtung

Fakultät für Biologie
Centrum für Biotechnologie > Institut für Genomforschung und Systembiologie
Centrum für Biotechnologie > Arbeitsgruppe A. Pühler

Erscheinungsjahr

2005

Zeitschriftentitel

Plant Physiol

Band

137

Ausgabe

4

Seite(n)

1283-1301

ISSN

0032-0889

eISSN

1532-2548

Page URI

https://pub.uni-bielefeld.de/record/1604074

Zitieren

Hohnjec N, Vieweg ME, Pühler A, Becker A, Küster H. Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza. Plant Physiol. 2005;137(4):1283-1301.

Hohnjec, N., Vieweg, M. E., Pühler, A., Becker, A., & Küster, H. (2005). Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza. Plant Physiol, 137(4), 1283-1301. https://doi.org/10.1104/pp.104.056572

Hohnjec, N, Vieweg, ME, Pühler, Alfred, Becker, Anke, and Küster, Helge. 2005. “Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza”. Plant Physiol 137 (4): 1283-1301.

Hohnjec, N., Vieweg, M. E., Pühler, A., Becker, A., and Küster, H. (2005). Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza. Plant Physiol 137, 1283-1301.

Hohnjec, N., et al., 2005. Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza. Plant Physiol, 137(4), p 1283-1301.

N. Hohnjec, et al., “Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza”, Plant Physiol, vol. 137, 2005, pp. 1283-1301.

Hohnjec, N., Vieweg, M.E., Pühler, A., Becker, A., Küster, H.: Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza. Plant Physiol. 137, 1283-1301 (2005).

Hohnjec, N, Vieweg, ME, Pühler, Alfred, Becker, Anke, and Küster, Helge. “Overlaps in the transcriptional profiles of Medicago truncatula roots inoculated with two different Glomus fungi provide insights into the genetic program activated during arbuscular mycorrhiza”. Plant Physiol 137.4 (2005): 1283-1301.

Daten bereitgestellt von European Bioinformatics Institute (EBI)

ARXPR

3 Einträge gefunden, die diesen Artikel zitieren

E-MEXP-237 (ARXPR: E-MEXP-237)
Bibliography accession: E-MEXP-237 - Transcription profiling of Medicago truncatula mature, nitrogen-fixing root nodules was vs gene expression in uninoculated roots

E-MEXP-218 (ARXPR: E-MEXP-218)
Bibliography accession: E-MEXP-218 - Transcription profiling of arbuscular mycorrhiza established at 4 weeks post inoculation between Medicago truncatula and Glomus mosseae

E-MEXP-238 (ARXPR: E-MEXP-238)
Bibliography accession: E-MEXP-238 - Transcription profiling of Medicago truncatula genes in roots in response to high (2 mM) and low (20 ?M) phosphate concentrations

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Gallou A, De Jaeger N, Cranenbrouck S, Declerck S., Mycorrhiza 20(3), 2010
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The 2-oxoglutarate/malate translocator mediates amino acid and storage protein biosynthesis in pea embryos.
Riebeseel E, Häusler RE, Radchuk R, Meitzel T, Hajirezaei MR, Emery RJ, Küster H, Nunes-Nesi A, Fernie AR, Weschke W, Weber H., Plant J 61(2), 2010
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Medicago truncatula Vapyrin is a novel protein required for arbuscular mycorrhizal symbiosis.
Pumplin N, Mondo SJ, Topp S, Starker CG, Gantt JS, Harrison MJ., Plant J 61(3), 2010
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Knockdown of the symbiotic sucrose synthase MtSucS1 affects arbuscule maturation and maintenance in mycorrhizal roots of Medicago truncatula.
Baier MC, Keck M, Gödde V, Niehaus K, Küster H, Hohnjec N., Plant Physiol 152(2), 2010
PMID: 20007443

Membrane steroid-binding protein 1 induced by a diffusible fungal signal is critical for mycorrhization in Medicago truncatula.
Kuhn H, Küster H, Requena N., New Phytol 185(3), 2010
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The MtSNF4b subunit of the sucrose non-fermenting-related kinase complex connects after-ripening and constitutive defense responses in seeds of Medicago truncatula.
Bolingue W, Rosnoblet C, Leprince O, Vu BL, Aubry C, Buitink J., Plant J 61(5), 2010
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Symbiosis-related pea genes modulate fungal and plant gene expression during the arbuscule stage of mycorrhiza with Glomus intraradices.
Kuznetsova E, Seddas-Dozolme PM, Arnould C, Tollot M, van Tuinen D, Borisov A, Gianinazzi S, Gianinazzi-Pearson V., Mycorrhiza 20(6), 2010
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Model legumes contribute to faba bean breeding
Rispail Nicolas, Kaló Péter, Kiss GyörgyB, Ellis THNoel, Gallardo Karine, Thompson RichardD, Prats Elena, Larrainzar Estibaliz, Ladrera Ruben, González EstherM, Arrese-Igor Cesar, Ferguson BrettJ, Gresshoff PeterM, Rubiales Diego., Field Crops Res 115(3), 2010
PMID: IND44316555

Identification of in planta-expressed arbuscular mycorrhizal fungal proteins upon comparison of the root proteomes of Medicago truncatula colonised with two Glomus species.
Recorbet G, Valot B, Robert F, Gianinazzi-Pearson V, Dumas-Gaudot E., Fungal Genet Biol 47(7), 2010
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Hormonal and transcriptional profiles highlight common and differential host responses to arbuscular mycorrhizal fungi and the regulation of the oxylipin pathway.
López-Ráez JA, Verhage A, Fernández I, García JM, Azcón-Aguilar C, Flors V, Pozo MJ., J Exp Bot 61(10), 2010
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Robin: an intuitive wizard application for R-based expression microarray quality assessment and analysis.
Lohse M, Nunes-Nesi A, Krüger P, Nagel A, Hannemann J, Giorgi FM, Childs L, Osorio S, Walther D, Selbig J, Sreenivasulu N, Stitt M, Fernie AR, Usadel B., Plant Physiol 153(2), 2010
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Proteomic analysis of Medicago truncatula root plastids.
Daher Z, Recorbet G, Valot B, Robert F, Balliau T, Potin S, Schoefs B, Dumas-Gaudot E., Proteomics 10(11), 2010
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Expression pattern suggests a role of MiR399 in the regulation of the cellular response to local Pi increase during arbuscular mycorrhizal symbiosis.
Branscheid A, Sieh D, Pant BD, May P, Devers EA, Elkrog A, Schauser L, Scheible WR, Krajinski F., Mol Plant Microbe Interact 23(7), 2010
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Arbuscular mycorrhizal fungi restore normal growth in a white poplar clone grown on heavy metal-contaminated soil, and this is associated with upregulation of foliar metallothionein and polyamine biosynthetic gene expression.
Cicatelli A, Lingua G, Todeschini V, Biondi S, Torrigiani P, Castiglione S., Ann Bot 106(5), 2010
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MediPlEx - a tool to combine in silico & experimental gene expression profiles of the model legume Medicago truncatula.
Henckel K, Küster H, Stutz LJ, Goesmann A., BMC Res Notes 3(), 2010
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Abscisic acid deficiency of developing pea embryos achieved by immunomodulation attenuates developmental phase transition and storage metabolism.
Radchuk R, Conrad U, Saalbach I, Giersberg M, Emery RJ, Küster H, Nunes-Nesi A, Fernie AR, Weschke W, Weber H., Plant J 64(5), 2010
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Phosphate systemically inhibits development of arbuscular mycorrhiza in Petunia hybrida and represses genes involved in mycorrhizal functioning.
Breuillin F, Schramm J, Hajirezaei M, Ahkami A, Favre P, Druege U, Hause B, Bucher M, Kretzschmar T, Bossolini E, Kuhlemeier C, Martinoia E, Franken P, Scholz U, Reinhardt D., Plant J 64(6), 2010
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Arbuscular mycorrhizal fungi induce differential activation of the plasma membrane and vacuolar H+ pumps in maize roots.
Ramos AC, Martins MA, Okorokova-Façanha AL, Olivares FL, Okorokov LA, Sepúlveda N, Feijó JA, Façanha AR., Mycorrhiza 19(2), 2009
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ADP-glucose pyrophosphorylase-deficient pea embryos reveal specific transcriptional and metabolic changes of carbon-nitrogen metabolism and stress responses.
Weigelt K, Küster H, Rutten T, Fait A, Fernie AR, Miersch O, Wasternack C, Emery RJ, Desel C, Hosein F, Müller M, Saalbach I, Weber H., Plant Physiol 149(1), 2009
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Comparative proteomic studies of root-microbe interactions.
Mathesius U., J Proteomics 72(3), 2009
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The signal peptide of the Medicago truncatula modular nodulin MtNOD25 operates as an address label for the specific targeting of proteins to nitrogen-fixing symbiosomes.
Hohnjec N, Lenz F, Fehlberg V, Vieweg MF, Baier MC, Hause B, Küster H., Mol Plant Microbe Interact 22(1), 2009
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On the mechanisms of cadmium stress alleviation in Medicago truncatula by arbuscular mycorrhizal symbiosis: a root proteomic study.
Aloui A, Recorbet G, Gollotte A, Robert F, Valot B, Gianinazzi-Pearson V, Aschi-Smiti S, Dumas-Gaudot E., Proteomics 9(2), 2009
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Genome-wide reprogramming of regulatory networks, transport, cell wall and membrane biogenesis during arbuscular mycorrhizal symbiosis in Lotus japonicus.
Guether M, Balestrini R, Hannah M, He J, Udvardi MK, Bonfante P., New Phytol 182(1), 2009
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Translating Medicago truncatula genomics to crop legumes.
Young ND, Udvardi M., Curr Opin Plant Biol 12(2), 2009
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Medicago truncatula and Glomus intraradices gene expression in cortical cells harboring arbuscules in the arbuscular mycorrhizal symbiosis.
Gomez SK, Javot H, Deewatthanawong P, Torres-Jerez I, Tang Y, Blancaflor EB, Udvardi MK, Harrison MJ., BMC Plant Biol 9(), 2009
PMID: 19161626

Overlapping expression patterns and differential transcript levels of phosphate transporter genes in arbuscular mycorrhizal, Pi-fertilised and phytohormone-treated Medicago truncatula roots.
Grunwald U, Guo W, Fischer K, Isayenkov S, Ludwig-Müller J, Hause B, Yan X, Küster H, Franken P., Planta 229(5), 2009
PMID: 19169704

EMMA 2--a MAGE-compliant system for the collaborative analysis and integration of microarray data.
Dondrup M, Albaum SP, Griebel T, Henckel K, Jünemann S, Kahlke T, Kleindt CK, Küster H, Linke B, Mertens D, Mittard-Runte V, Neuweger H, Runte KJ, Tauch A, Tille F, Pühler A, Goesmann A., BMC Bioinformatics 10(), 2009
PMID: 19200358

TRUNCATULIX--a data warehouse for the legume community.
Henckel K, Runte KJ, Bekel T, Dondrup M, Jakobi T, Küster H, Goesmann A., BMC Plant Biol 9(), 2009
PMID: 19210766

A mycorrhizal-specific ammonium transporter from Lotus japonicus acquires nitrogen released by arbuscular mycorrhizal fungi.
Guether M, Neuhäuser B, Balestrini R, Dynowski M, Ludewig U, Bonfante P., Plant Physiol 150(1), 2009
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Laser microdissection and its application to analyze gene expression in arbuscular mycorrhizal symbiosis.
Gomez SK, Harrison MJ., Pest Manag Sci 65(5), 2009
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Transcriptome analysis of a bacterially induced basal and hypersensitive response of Medicago truncatula.
Bozsó Z, Maunoury N, Szatmari A, Mergaert P, Ott PG, Zsíros LR, Szabó E, Kondorosi E, Klement Z., Plant Mol Biol 70(6), 2009
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Composite Medicago truncatula plants harbouring Agrobacterium rhizogenes-transformed roots reveal normal mycorrhization by Glomus intraradices.
Mrosk C, Forner S, Hause G, Küster H, Kopka J, Hause B., J Exp Bot 60(13), 2009
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GintPDX1 encodes a protein involved in vitamin B6 biosynthesis that is up-regulated by oxidative stress in the arbuscular mycorrhizal fungus Glomus intraradices.
Benabdellah K, Azcón-Aguilar C, Valderas A, Speziga D, Fitzpatrick TB, Ferrol N., New Phytol 184(3), 2009
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Live-cell imaging reveals periarbuscular membrane domains and organelle location in Medicago truncatula roots during arbuscular mycorrhizal symbiosis.
Pumplin N, Harrison MJ., Plant Physiol 151(2), 2009
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Global and cell-type gene expression profiles in tomato plants colonized by an arbuscular mycorrhizal fungus.
Fiorilli V, Catoni M, Miozzi L, Novero M, Accotto GP, Lanfranco L., New Phytol 184(4), 2009
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Gene expression profiling of Medicago truncatula roots in response to the parasitic plant Orobanche crenata
, Weed Res 49(), 2009
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Metabolite profiling of mycorrhizal roots of Medicago truncatula.
Schliemann W, Ammer C, Strack D., Phytochemistry 69(1), 2008
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Identification of a multigene family encoding putative beta-glucan-binding proteins in Medicago truncatula.
Leclercq J, Fliegmann J, Tellström V, Niebel A, Cullimore JV, Niehaus K, Küster H, Ebel J, Mithöfer A., J Plant Physiol 165(7), 2008
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Medicago truncatula shows distinct patterns of mycorrhiza-related gene expression after inoculation with three different arbuscular mycorrhizal fungi.
Feddermann N, Boller T, Salzer P, Elfstrand S, Wiemken A, Elfstrand M., Planta 227(3), 2008
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Metabolic profiles of Lolium perenne are differentially affected by nitrogen supply, carbohydrate content, and fungal endophyte infection.
Rasmussen S, Parsons AJ, Fraser K, Xue H, Newman JA., Plant Physiol 146(3), 2008
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Increasing amino acid supply in pea embryos reveals specific interactions of N and C metabolism, and highlights the importance of mitochondrial metabolism.
Weigelt K, Küster H, Radchuk R, Müller M, Weichert H, Fait A, Fernie AR, Saalbach I, Weber H., Plant J 55(6), 2008
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Knock-down of the MEP pathway isogene 1-deoxy-D-xylulose 5-phosphate synthase 2 inhibits formation of arbuscular mycorrhiza-induced apocarotenoids, and abolishes normal expression of mycorrhiza-specific plant marker genes.
Floss DS, Hause B, Lange PR, Küster H, Strack D, Walter MH., Plant J 56(1), 2008
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A community resource for high-throughput quantitative RT-PCR analysis of transcription factor gene expression in Medicago truncatula.
Kakar K, Wandrey M, Czechowski T, Gaertner T, Scheible WR, Stitt M, Torres-Jerez I, Xiao Y, Redman JC, Wu HC, Cheung F, Town CD, Udvardi MK., Plant Methods 4(), 2008
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Evidence for the involvement in nodulation of the two small putative regulatory peptide-encoding genes MtRALFL1 and MtDVL1.
Combier JP, Küster H, Journet EP, Hohnjec N, Gamas P, Niebel A., Mol Plant Microbe Interact 21(8), 2008
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RNA interference-mediated repression of MtCCD1 in mycorrhizal roots of Medicago truncatula causes accumulation of C27 apocarotenoids, shedding light on the functional role of CCD1.
Floss DS, Schliemann W, Schmidt J, Strack D, Walter MH., Plant Physiol 148(3), 2008
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EFD Is an ERF transcription factor involved in the control of nodule number and differentiation in Medicago truncatula.
Vernié T, Moreau S, de Billy F, Plet J, Combier JP, Rogers C, Oldroyd G, Frugier F, Niebel A, Gamas P., Plant Cell 20(10), 2008
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Arbuscular mycorrhiza-specific signaling in rice transcends the common symbiosis signaling pathway.
Gutjahr C, Banba M, Croset V, An K, Miyao A, An G, Hirochika H, Imaizumi-Anraku H, Paszkowski U., Plant Cell 20(11), 2008
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Functional biology of plant phosphate uptake at root and mycorrhiza interfaces.
Bucher M., New Phytol 173(1), 2007
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How does arbuscular mycorrhizal symbiosis regulate root hydraulic properties and plasma membrane aquaporins in Phaseolus vulgaris under drought, cold or salinity stresses?
Aroca R, Porcel R, Ruiz-Lozano JM., New Phytol 173(4), 2007
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Localization of proton-ATPase genes expressed in arbuscular mycorrhizal tomato plants.
Rosewarne GM, Smith FA, Schachtman DP, Smith SE., Mycorrhiza 17(3), 2007
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The lipopolysaccharide of Sinorhizobium meliloti suppresses defense-associated gene expression in cell cultures of the host plant Medicago truncatula.
Tellström V, Usadel B, Thimm O, Stitt M, Küster H, Niehaus K., Plant Physiol 143(2), 2007
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Medicago truncatula gene responses specific to arbuscular mycorrhiza interactions with different species and genera of Glomeromycota.
Massoumou M, van Tuinen D, Chatagnier O, Arnould C, Brechenmacher L, Sanchez L, Selim S, Gianinazzi S, Gianinazzi-Pearson V., Mycorrhiza 17(3), 2007
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Phosphate in the arbuscular mycorrhizal symbiosis: transport properties and regulatory roles.
Javot H, Pumplin N, Harrison MJ., Plant Cell Environ 30(3), 2007
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Arbuscular mycorrhizal symbiosis is accompanied by local and systemic alterations in gene expression and an increase in disease resistance in the shoots.
Liu J, Maldonado-Mendoza I, Lopez-Meyer M, Cheung F, Town CD, Harrison MJ., Plant J 50(3), 2007
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Transcriptome analysis of arbuscular mycorrhizal roots during development of the prepenetration apparatus.
Siciliano V, Genre A, Balestrini R, Cappellazzo G, deWit PJ, Bonfante P., Plant Physiol 144(3), 2007
PMID: 17468219

Legume transcription factors: global regulators of plant development and response to the environment.
Udvardi MK, Kakar K, Wandrey M, Montanari O, Murray J, Andriankaja A, Zhang JY, Benedito V, Hofer JM, Chueng F, Town CD., Plant Physiol 144(2), 2007
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Genomic and genetic control of phosphate stress in legumes.
Tesfaye M, Liu J, Allan DL, Vance CP., Plant Physiol 144(2), 2007
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Transcriptome profiling of Lotus japonicus roots during arbuscular mycorrhiza development and comparison with that of nodulation.
Deguchi Y, Banba M, Shimoda Y, Chechetka SA, Suzuri R, Okusako Y, Ooki Y, Toyokura K, Suzuki A, Uchiumi T, Higashi S, Abe M, Kouchi H, Izui K, Hata S., DNA Res 14(3), 2007
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Suppression of the pathogen-inducible Medicago truncatula putative protease-inhibitor MtTi2 does not influence root infection by Aphanomyces euteiches but results in transcriptional changes from wildtype roots
Nyamsuren O, Firnhaber C, Hohnjec N, Becker A, Küster H, Krajinski F., Plant Sci 173(2), 2007
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Laser microdissection reveals that transcripts for five plant and one fungal phosphate transporter genes are contemporaneously present in arbusculated cells.
Balestrini R, Gómez-Ariza J, Lanfranco L, Bonfante P., Mol Plant Microbe Interact 20(9), 2007
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Pre-Penetration Apparatus Formation During AM Infection is Associated With a Specific Transcriptome Response in Epidermal Cells.
Siciliano V, Genre A, Balestrini R, Dewit PJ, Bonfante P., Plant Signal Behav 2(6), 2007
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A journey through signaling in arbuscular mycorrhizal symbioses 2006.
Paszkowski U., New Phytol 172(1), 2006
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Transcriptional snapshots provide insights into the molecular basis of arbuscular mycorrhiza in the model legume Medicago truncatula.
Hohnjec N, Henckel K, Bekel T, Gouzy J, Dondrup M, Goesmann A, Kuster H., Functional plant biology : FPB. 33(8), 2006
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The Affymetrix Medicago GeneChip array is applicable for transcript analysis of alfalfa (Medicago sativa)
Tesfaye M, Silverstein KAT, Bucciarelli B, Samac DA, Vance CP., Functional plant biology : FPB. 33(8), 2006
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Genetics and functional genomics of legume nodulation.
Stacey G, Libault M, Brechenmacher L, Wan J, May GD., Curr Opin Plant Biol 9(2), 2006
PMID: 16458572

Genetic and genomic analysis of legume flowers and seeds.
Domoney C, Duc G, Ellis TH, Ferrándiz C, Firnhaber C, Gallardo K, Hofer J, Kopka J, Küster H, Madueño F, Munier-Jolain NG, Mayer K, Thompson R, Udvardi M, Salon C., Curr Opin Plant Biol 9(2), 2006
PMID: 16480914

The conserved arbuscular mycorrhiza-specific transcription of the secretory lectin MtLec5 is mediated by a short upstream sequence containing specific protein binding sites.
Frenzel A, Tiller N, Hause B, Krajinski F., Planta 224(4), 2006
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Endophyte or parasite--what decides?
Kogel KH, Franken P, Hückelhoven R., Curr Opin Plant Biol 9(4), 2006
PMID: 16713330

Transcriptome profiling uncovers metabolic and regulatory processes occurring during the transition from desiccation-sensitive to desiccation-tolerant stages in Medicago truncatula seeds.
Buitink J, Leger JJ, Guisle I, Vu BL, Wuillème S, Lamirault G, Le Bars A, Le Meur N, Becker A, Küster H, Leprince O., Plant J 47(5), 2006
PMID: 16923015

Metabolite profiles of nodulated alfalfa plants indicate that distinct stages of nodule organogenesis are accompanied by global physiological adaptations.
Barsch A, Tellström V, Patschkowski T, Küster H, Niehaus K., Mol Plant Microbe Interact 19(9), 2006
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Fungal and plant gene expression in arbuscular mycorrhizal symbiosis.
Balestrini R, Lanfranco L., Mycorrhiza 16(8), 2006
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Structural basis for the modulation of lignin monomer methylation by caffeic acid/5-hydroxyferulic acid 3/5-O-methyltransferase.
Zubieta C, Kota P, Ferrer JL, Dixon RA, Noel JP., Plant Cell 14(6), 2002
PMID: 12084826

Functional diversity of arbuscular mycorrhizas extends to the expression of plant genes involved in P nutrition.
Burleigh SH, Cavagnaro T, Jakobsen I., J. Exp. Bot. 53(374), 2002
PMID: 12096098

Plant development: regulation by protein degradation.
Hellmann H, Estelle M., Science 297(5582), 2002
PMID: 12161644

Two distantly related genes encoding 1-deoxy-d-xylulose 5-phosphate synthases: differential regulation in shoots and apocarotenoid-accumulating mycorrhizal roots.
Walter MH, Hans J, Strack D., Plant J. 31(3), 2002
PMID: 12164805

Transcripts for genes encoding soluble acid invertase and sucrose synthase accumulate in root tip and cortical cells containing mycorrhizal arbuscules.
Blee KA, Anderson AJ., Plant Mol. Biol. 50(2), 2002
PMID: 12175013

Colonization of roots by arbuscular mycorrhizal fungi using different sources of inoculum.
Klironomos JN, Hart MM., Mycorrhiza 12(4), 2002
PMID: 12189472

Rice phosphate transporters include an evolutionarily divergent gene specifically activated in arbuscular mycorrhizal symbiosis.
Paszkowski U, Kroken S, Roux C, Briggs SP., Proc. Natl. Acad. Sci. U.S.A. 99(20), 2002
PMID: 12271140

A phosphate transporter from Medicago truncatula involved in the acquisition of phosphate released by arbuscular mycorrhizal fungi.
Harrison MJ, Dewbre GR, Liu J., Plant Cell 14(10), 2002
PMID: 12368495

Genome-wide identification of nodule-specific transcripts in the model legume Medicago truncatula.
Fedorova M, van de Mortel J, Matsumoto PA, Cho J, Town CD, VandenBosch KA, Gantt JS, Vance CP., Plant Physiol. 130(2), 2002
PMID: 12376622

Stimulation of carotenoid metabolism in arbuscular mycorrhizal roots.
Fester T, Schmidt D, Lohse S, Walter MH, Giuliano G, Bramley PM, Fraser PD, Hause B, Strack D., Planta 216(1), 2002
PMID: 12430024

Exploring root symbiotic programs in the model legume Medicago truncatula using EST analysis.
Journet EP, van Tuinen D, Gouzy J, Crespeau H, Carreau V, Farmer MJ, Niebel A, Schiex T, Jaillon O, Chatagnier O, Godiard L, Micheli F, Kahn D, Gianinazzi-Pearson V, Gamas P., Nucleic Acids Res. 30(24), 2002
PMID: 12490726

Summaries of legume genomics projects from around the globe. Community resources for crops and models.
AUTHOR UNKNOWN, Plant Physiol. 131(3), 2003
PMID: 12644637

Legume natural products: understanding and manipulating complex pathways for human and animal health.
Dixon RA, Sumner LW., Plant Physiol. 131(3), 2003
PMID: 12644640

A diffusible factor from arbuscular mycorrhizal fungi induces symbiosis-specific MtENOD11 expression in roots of Medicago truncatula.
Kosuta S, Chabaud M, Lougnon G, Gough C, Denarie J, Barker DG, Becard G., Plant Physiol. 131(3), 2003
PMID: 12644648

The use of plants for remediation of metal-contaminated soils.
Vassilev A, Schwitzguebel JP, Thewys T, Van Der Lelie D, Vangronsveld J., ScientificWorldJournal 4(), 2004
PMID: 14755099

RNA interference in Agrobacterium rhizogenes-transformed roots of Arabidopsis and Medicago truncatula.
Limpens E, Ramos J, Franken C, Raz V, Compaan B, Franssen H, Bisseling T, Geurts R., J. Exp. Bot. 55(399), 2004
PMID: 15073217

Construction and validation of cDNA-based Mt6k-RIT macro- and microarrays to explore root endosymbioses in the model legume Medicago truncatula.
Kuster H, Hohnjec N, Krajinski F, El YF, Manthey K, Gouzy J, Dondrup M, Meyer F, Kalinowski J, Brechenmacher L, van Tuinen D, Gianinazzi-Pearson V, Puhler A, Gamas P, Becker A., J. Biotechnol. 108(2), 2004
PMID: 15129719

Methods for transcriptional profiling in plants. Be fruitful and replicate.
Meyers BC, Galbraith DW, Nelson T, Agrawal V., Plant Physiol. 135(2), 2004
PMID: 15173570

Recognition events in AM symbiosis: analysis of fungal gene expression at the early appressorium stage.
Breuninger M, Requena N., Fungal Genet. Biol. 41(8), 2004
PMID: 15219563

Antifungal proteins and peptides of leguminous and non-leguminous origins.
Ng TB., Peptides 25(7), 2004
PMID: 15245883

Global changes in transcription orchestrate metabolic differentiation during symbiotic nitrogen fixation in Lotus japonicus.
Colebatch G, Desbrosses G, Ott T, Krusell L, Montanari O, Kloska S, Kopka J, Udvardi MK., Plant J. 39(4), 2004
PMID: 15272870

Expression profiling of up-regulated plant and fungal genes in early and late stages of Medicago truncatula-Glomus mosseae interactions.
Brechenmacher L, Weidmann S, van Tuinen D, Chatagnier O, Gianinazzi S, Franken P, Gianinazzi-Pearson V., Mycorrhiza 14(4), 2003
PMID: 13680319

ESTs, cDNA microarrays, and gene expression profiling: tools for dissecting plant physiology and development.
Alba R, Fei Z, Payton P, Liu Y, Moore SL, Debbie P, Cohn J, D'Ascenzo M, Gordon JS, Rose JK, Martin G, Tanksley SD, Bouzayen M, Jahn MM, Giovannoni J., Plant J. 39(5), 2004
PMID: 15315633

Identification and characterization of several new members of the ZIP family of metal ion transporters in Medicago truncatula.
Lopez-Millan AF, Ellis DR, Grusak MA., Plant Mol. Biol. 54(4), 2004
PMID: 15316291

Analysis of the root nodule-enhanced transcriptome in soybean.
Lee H, Hur CG, Oh CJ, Kim HB, Pakr SY, An CS., Mol. Cells 18(1), 2004
PMID: 15359124

Phosphoinositide-specific phospholipase C is involved in cytokinin and gravity responses in the moss Physcomitrella patens.
Repp A, Mikami K, Mittmann F, Hartmann E., Plant J. 40(2), 2004
PMID: 15447651

Expression profiling in Medicago truncatula identifies more than 750 genes differentially expressed during nodulation, including many potential regulators of the symbiotic program.
El Yahyaoui F, Kuster H, Ben Amor B, Hohnjec N, Puhler A, Becker A, Gouzy J, Vernie T, Gough C, Niebel A, Godiard L, Gamas P., Plant Physiol. 136(2), 2004
PMID: 15466239

Transcriptome profiling in root nodules and arbuscular mycorrhiza identifies a collection of novel genes induced during Medicago truncatula root endosymbioses.
Manthey K, Krajinski F, Hohnjec N, Firnhaber C, Puhler A, Perlick AM, Kuster H., Mol. Plant Microbe Interact. 17(10), 2004
PMID: 15497399

Large-scale analysis of gene expression profiles during early stages of root nodule formation in a model legume, Lotus japonicus.
Kouchi H, Shimomura K, Hata S, Hirota A, Wu GJ, Kumagai H, Tajima S, Suganuma N, Suzuki A, Aoki T, Hayashi M, Yokoyama T, Ohyama T, Asamizu E, Kuwata C, Shibata D, Tabata S., DNA Res. 11(4), 2004
PMID: 15500251

Transcriptional changes in response to arbuscular mycorrhiza development in the model plant Medicago truncatula.
Wulf A, Manthey K, Doll J, Perlick AM, Linke B, Bekel T, Meyer F, Franken P, Kuster H, Krajinski F., Mol. Plant Microbe Interact. 16(4), 2003
PMID: 12744459

A novel family in Medicago truncatula consisting of more than 300 nodule-specific genes coding for small, secreted polypeptides with conserved cysteine motifs.
Mergaert P, Nikovics K, Kelemen Z, Maunoury N, Vaubert D, Kondorosi A, Kondorosi E., Plant Physiol. 132(1), 2003
PMID: 12746522

Symbiotic status, phosphate, and sucrose regulate the expression of two plasma membrane H+-ATPase genes from the mycorrhizal fungus Glomus mosseae.
Requena N, Breuninger M, Franken P, Ocon A., Plant Physiol. 132(3), 2003
PMID: 12857834

Transcript profiling coupled with spatial expression analyses reveals genes involved in distinct developmental stages of an arbuscular mycorrhizal symbiosis.
Liu J, Blaylock LA, Endre G, Cho J, Town CD, VandenBosch KA, Harrison MJ., Plant Cell 15(9), 2003
PMID: 12953114

Mycorrhizal fungi can dominate phosphate supply to plants irrespective of growth responses.
Smith SE, Smith FA, Jakobsen I., Plant Physiol. 133(1), 2003
PMID: 12970469

A plasma membrane zinc transporter from Medicago truncatula is up-regulated in roots by Zn fertilization, yet down-regulated by arbuscular mycorrhizal colonization.
Burleigh SH, Kristensen BK, Bechmann IE., Plant Mol. Biol. 52(5), 2003
PMID: 14558666

The Medicago truncatula sucrose synthase gene MtSucS1 is activated both in the infected region of root nodules and in the cortex of roots colonized by arbuscular mycorrhizal fungi.
Hohnjec N, Perlick AM, Puhler A, Kuster H., Mol. Plant Microbe Interact. 16(10), 2003
PMID: 14558692

Plant sciences. How legumes select their sweet talking symbionts.
Cullimore J, Denarie J., Science 302(5645), 2003
PMID: 14576408

Arbuscular mycorrhiza: biological, chemical, and molecular aspects.
Strack D, Fester T, Hause B, Schliemann W, Walter MH., J. Chem. Ecol. 29(9), 2003
PMID: 14584670

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