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  • Afzal A.J., Wood A.J. & Lightfoot D.A. (2008) Plant receptor-like serine threonine kinases: roles in signalling and plant defense. Molecular Plant-Microbe Interactions 21, 507517.
  • Bella J., Hindle K.L., McEwan P.A. & Lovell S.C. (2008) The leucine-rich repeat structure. Cellular and Molecular Life Sciences 65, 23072333.
  • Bersoult A., Camut S., Perhald A., Kereszt A., Kiss G.B. & Cullimore J.V. (2005) Expression of the Medicago truncatula DMI2 gene suggests roles of the symbiotic nodulation receptor kinase in nodules and during early nodule development. Molecular Plant-Microbe Interactions 18, 869876.
  • Boualem A., Laporte P., Jovanovic M., Laffont C., Plet J., Combier J.P., Niebel A., Crespi M. & Frugier F. (2008) MicroRNA166 controls root and nodule development in Medicago truncatula. The Plant Journal 54, 876887.
  • Capoen W., Goormachtig S., De Rycke R., Schroeyers K. & Holsters M. (2005) SrSymRK, a plant receptor essential for symbiosome formation. Proceedings of the National Academy of Sciences of the United States of America 102, 1036910374.
  • Cárdenas L., Domínguez J., Quinto C., López-Lara I.M., Lugtenberg B.J.J., Spaink H.P., Rademaker G.J., Haverkamp J. & Thomas-Oates J.E. (1995) Isolation, chemical structures and biological activity of the lipo-chitin oligosaccharide nodulation signals from Rhizobium etli. Plant Molecular Biology 29, 453464.
  • Cárdenas L., Holdaway-Clarke T.L., Sánchez F., Quinto C., Feijó J.A., Kunkel J.G. & Hepler P.K. (2000) Ion changes in legume root hairs responding to Nod factors. Plant Physiology 13, 443451.
  • Catoira R., Galera C., de Billy F., Penmetsa R.V., Journet E.P., Maillet F., Rosenberg C., Cook D., Gough C. & Dénairé J. (2000) Four genes of Medicago truncatula controlling components of a Nod factor transduction pathway. The Plant Cell 12, 16471665.
  • Charon C., Johansson C., Kondorosi E., Kondorosi A. & Crespi M. (1997) enod40 induces dedifferentiation and division of root cortical cells in legumes. Proceedings of the National Academy of Sciences of the United States of America 94, 89018906.
  • Chomczynski P. & Sacchi N. (1987) Single-step method of RNA isolation by acid guanidinium thiocyanate-phenol-chloroform extraction. Analytical Biochemistry 162, 156159.
  • Crespi M. & Frugier F. (2008) De novo organ formation from differentiated cells: root nodule organogenesis. Science Signaling 1, re1.
  • Den Herder G. & Parniske M. (2009) The unbearable naivety of legumes in symbiosis. Current Opinion in Plant Biology 12, 491499.
  • Diévart A. & Clark S.E. (2004) LRR-containing receptors regulating plant development and defense. Development (Cambridge, England) 131, 251261.
  • Ding Y. & Oldroyd G.E.D. (2009) Positioning the nodule, the hormone dictum. Plant Signaling & Behavior 4, 8993.
  • Early K.W., Haag J.R., Pontes O., Opper K., Jeuhne T., Song K. & Pikaard G.S. (2006) Gateway-compatible vectors for plant functional genomics and proteomics. The Plant Journal 45, 616629.
  • Endre G., Kereszt A., Kevei Z., Mihacea S., Kalo P. & Kiss G.B. (2002) A receptor kinase gene regulating symbiotic nodule development. Nature 417, 962966.
  • Estrada-Navarrete G., Alvarado-Affantranger X., Olivares J.E., Guillén G., Díaz-Camino C., Campos F., Quinto C., Gresshoff P.M. & Sanchez F. (2007) Fast, efficient and reproducible genetic transformation of Phaseolus spp. by Agrobacterium rhizogenes. Nature Protocols 2, 18191824.
  • Evert F.R. & Eichhorn S.E. (2006) Xylem: cell types and developmental aspects. In Esau's Plant Anatomy: Meristems, Cells, and Tissues of the Plant Body – Their Structure, Function, and Development (ed. R.F. Evert) pp. 255290. John Wiley & Sons, Inc., Hoboken, NJ, USA.
  • Favery B., Complainville A., Vinardell J.M., Lecomte P., Vaubert D., Mergaert P., Kondorosi A., Kondorosi E., Crespi M. & Abad P. (2002) The endosybiosis-induced genes ENOD40 and CCS52a are involved in endoparasitic-nematode interactions in Medicago truncatula. Molecular Plant-Microbe Interactions 15, 10081013.
  • Ferguson B.J., Indrasumunar A., Hayashi S., Lin M.H., Lin Y.H., Rel D.E. & Gresshoff P.M. (2010) Molecular analysis of legume nodule development and autoregulation. Journal of Integrative Plant Biology 52, 6176.
  • Geurts R., Fedorova E. & Bisseling T. (2005) Nod factor signaling genes and their function in the early stages of Rhizobium infection. Current Opinion in Plant Biology 8, 346352.
  • Gherbi H., Markmann K., Svistoonoff S., et al. (2008) SymRK defines a common genetic basis for plant root endosymbiosis with arbuscular mycorrhiza fungi, rhizobia, and Frankia bacteria. Proceedings of the National Academy of Sciences of the United States of America 105, 49284932.
  • Gleason C., Chaudhuri S., Yang T., Muñoz A., Poovaiah B.W. & Oldroyd G.E. (2006) Nodulation independent of rhizobia induced by a calcium-activated kinase lacking autoinhibition. Nature 441, 11491152.
  • Guinel F. (2009) Getting around the legume nodule: I. The structure of the peripheral zone in four nodule types. Botany 87, 11171138.
  • Hayashi T., Banba M., Shimoda Y., Kouchi H., Hayashi M. & Immaizumi-Anraku H. (2010) A dominant function of CCaMK in intracellular accommodation of bacterial and fungal endosymbionts. The Plant Journal 63, 141154.
  • Hirakawa Y., Kondo Y. & Fukuda H. (2010) Establishment and maintenance of vascular cell communities through local signaling. Current Opinion in Plant Biology 14, 17.
  • Høgslund N., Radutoiu S., Krusell L., et al. (2009) Dissection of symbiosis and organ development by integrated transcriptome analysis of Lotus japonicus mutant and wild-type plants. PLoS ONE 4: e6556. doi:10.1371/journal.pone.0006556.
  • Holsters M. (2008) SYMRK, an enigmatic receptor guarding and guiding microbial endosymbioses with plant roots. Proceedings of the National Academy of Sciences of the United States of America 105, 45374538.
  • Imaizumi-Anraku H., Kouchi H., Syono K., Akao S. & Kawaguchi M. (2000) Analysis of ENOD40 expression in alb1, a symbiotic mutant of Lotus japonicus that forms empty nodules with incompletely developed nodule vascular bundles. Molecular and General Genetics 264, 402410.
  • Kevei Z., Lougnon G., Mergaert P., et al. (2007) 3-hydroxy-3methilglutaryl coenzyme A reductase1 interacts with NORK and is crucial for nodulation in Medicago truncatula. The Plant Cell 19, 39743989.
  • Kosuta S., Held M., Hossain M.S., et al. (2011) Lotus japonicus symRK-14 uncouples the cortical and epidermal symbiotic program. Plant Journal doi: 10.1111/j.1365-313X.2011.04645.x.
  • Lefebvre B., Timmers T., Mbengue M., et al. (2010) A remorin protein interacts with symbiotic receptors and regulates bacterial infection. Proceedings of the National Academy of Sciences of the United States of America 107, 23432348.
  • Limpens E. (2004) Receptor kinases regulating rhizobial infection. PhD thesis, Wageningen University, The Netherlands.
  • Limpens E., Mirabella R., Fedorova E., Franken C., Franssen H., Bisseling T. & Geurts R. (2005) Formation of organelle-like N2-fixing symbiosomes in legume root nodules is controlled by DMI2. Proceedings of the National Academy of Sciences of the United States of America 102, 1037510380.
  • Madsen L.H., Tirichine L., Jurkiewicz A., Sullivan J.T., Heckmann A.B., Bek A.S., Ronson C.W., James E.K. & Stougaard J. (2010) The molecular network governing nodule organogenesis and infection in the model legume Lotus japonicus. Nature Communications 1: 10. doi: 10.1038/ncomms1009.
  • Markmann K., Giczey G. & Parniske M. (2008) Functional adaptation of a plant receptor-kinase paved the way for the evolution of intracellular root symbioses with bacteria. PLOS Biology 6, 497506.
  • Marsh J.F., Rakocevic A., Mitra R.M., Brocard L., Sun J., Eschstruth A., Long S.R., Schultze M., Ratet P. & Oldroyd G.E.D. (2007) Medicago truncatula NIN is essential for rhizobial-independent nodule organogenesis induced by autoactive calcium/calmodulin-dependent protein kinase. Plant Physiology 144, 324335.
  • Mirabella R. (2004) Role of ROP-GTPases and nod factor signaling in Medicago root nodule infection. PhD thesis, Wageningen University, The Netherlands.
  • Miyazawa H., Okara-Kira E., Sato N., et al. (2010) The receptor-like kinase KLAVIER mediates systemic regulation of nodulation and non-symbiotic shoot development in Lotus japonicus. Development (Cambridge, England) 137, 43174325.
  • Oldroyd G.E.D. & Downie J.A. (2008) Coordinating nodule morphogenesis with rhizobial infection in legumes. Annual Review of Plant Biology 59, 519546.
  • Papadopoulou K., Roussis A. & Katinakis P. (1996) Phaseolus ENOD40 is involved in symbiotic and non-symbiotic organogenetic processes: expression during nodule and lateral root development. Plant Molecular Biology 30, 403417.
  • Patriarca J.E., Taté R., Ferraioli S. & Iaccarino M. (2004) Organogenesis of legume root nodules. International Review of Cytology 234, 201262.
  • Radutoiu S., Madsen L.H., Madsen E.B., Jurkiewicz A., Fukai E., Quistgaard E.M.H., Albrektsen A.S., James E.K., Thirup S. & Stougaard J. (2007) LysM domains mediate lipochitin-oligosaccharide recognition and Nfr genes extend the symbiotic host range. The EMBO Journal 26, 39233935.
  • Schauser L., Roussis A., Stiller J. & Stougaard J. (1999) A plant regulator controlling development of symbiotic root nodules. Nature 402, 191195.
  • Searle I.R., Men A.M., Laniya T.S., Buzas D.M., Iturbe-Ormaetxe I., Carroll B.J. & Gresshoff P.M. (2003) Long-distance signalling in nodulation directed by a CLAVATA1-like receptor kinase. Science 299, 108112.
  • Shirtliffe S.J. & Vessey J.K. (1996) A nodulation (Nod+/Fix-) mutant of Phaseolus vulgaris L. has nodule-like structures lacking peripheral vascular bundles (Pvb-) and is resistant to mycorrhizal infection (Myc-). Plant Science 118, 209220.
  • Stracke S., Kistner C., Yoshida S., et al. (2002) A plant receptor-like kinase required for both bacterial and fungal symbiosis. Nature 417, 959962.
  • Szczyglowski K. & Amyot L. (2003) Symbiosis, inventiveness by recruitment? Plant Physiology 131, 935940.
  • Takanashi K., Sugiyama A. & Yazaki K. (2011) Involvement of auxin distribution in root nodule development of Lotus japonicus. Planta 234, 7381.
  • Taté R., Patriarca E.J., Riccio A., Defez R. & Iaccarino M. (1994) Development of Phaseolus vulgaris root nodules. Molecular Plant-Microbe Interactions 7, 582589.
  • Tirichine L., James E.K., Sandal N. & Stougaard J. (2006) Spontaneous root-nodule formation in the model legume Lotus japonicus: a novel class of mutants nodulates in the absence of rhizobia. Molecular Plant-Microbe Interactions 19, 373382.
  • Tör M., Lotze M.T. & Holton N. (2009) Receptor-mediated signalling in plants: molecular patterns and programmes. Journal of Experimental Botany 60, 36453654.
  • Valdés-López O., Arenas-Huertero C., Ramírez M., Girard L., Sánchez F., Vance C.P., Reyes J.L. & Hernández G. (2008) Essential role of MYB transcription factor: PvPHR1 and microRNA: PvmiR399 in phosphorus-deficiency signaling in common bean roots. Plant, Cell & Environment 31, 18341843.
  • Varkonyi-Gasic E. & White D.W.R. (2002) The white clover enod40 gene family. Expression patterns of two types of genes indicate a role in vascular function. Plant Physiology 129, 11071118.
  • Yang W.C., Katinakis P., Hendriks P., Smolders A., de Vries F., Spee J., van Kammen A., Bisseling T. & Franssen H. (1993) Characterization of GmENOD40, a gene showing novel patterns of cell-specific expression during soybean nodule development. The Plant Journal 3, 573585.
  • Yano K., Tansengco M.L., Hio T., Higashi K., Murooka Y., Imaizumi-Araku H., Kawagushi M. & Hayashi M. (2006) New nodulation mutants responsible for infection thread development in Lotus japonicus. Molecular Plant-Microbe Interactions 19, 801810.
  • Yano K., Yoshida S., Müller J., et al. (2008) CYCLOPS, a mediator of symbiotic intracellular accommodation. Proceedings of the National Academy of Sciences of the United States of America 105, 2054020545.
  • Yano K., Shibata S., Chen W.L., et al. (2009) CERBERUS, a novel U-box protein containing WD-40 repeats, is required for formation of the infection thread and nodule development in the legume-Rhizobium symbiosis. The Plant Journal 60, 168180.
  • Yoshida S. & Parniske M. (2005) Regulation of plant symbiosis receptor kinase through serine and threonine phosphorylation. Journal of Biological Chemistry 280, 92039209.
  • Zhu H., Chen T., Zhu M., Fang Q., Hang H., Hong Z. & Zhang Z. (2008) A novel ARID DNA-binding protein interacts with SymRK and is expressed during early nodule development in Lotus japonicus. Plant Physiology 148, 337347.