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References

  • Albrecht C, Geurts R, Bisseling T. 1999. Legume nodulation and mycorrhizae formation; two extremes in host specificity meet. EMBO Journal 18: 281288.
  • Bago B, Pfeffer P, Shachar-Hill Y. 2000. Carbon metabolism and transport in arbuscular mycorrhiza. Plant Physiology 124: 949957.
  • Barker SJ, Stummer B, Gao L, Dispain I, O’Connor PJ, Smith SE. 1998a. A mutant in Lycopersicon esculentum Mill. with highly reduced VA mycorrhizal colonisation: isolation and preliminary characterisation. Plant Journal 15: 791797.
  • Bianciotto V, Barbiero G, Bonfante P. 1995. Analysis of the cell cycle in an arbuscular mycorrhizal fungus by flow cytometry and abromo-deoxyuridine labeling. Protoplasma 188: 161169.
  • Bonfante P, Genre A, Faccio A, Martini I, Schauser L, Stougaard J, Webb J, Parniske M. 2000. The Lotus japonicus LjSym4 gene is required for the successful symbiotic infection of root epidermal cells. Molecular Plant Microbe Interactions 13(10): 11091120.
  • Brundrett M, Melville L, Peterson RL. 1994. Practical methods in mycorrhizal research. Waterloo, Canada: Mycologue Publications.
  • Catoira R, Galera C, De Billy F, Penmetsa RV, Journet EP, Maillet F, Rosenberg C, Cook D, Gough C, Denarie J. 2000. Four genes of Medicago truncatula controlling components of a Nod factor transduction pathway. The Plant Cell 12: 16471665.
  • David-Schwartz R, Badani H, Smadar W, Levy. AA, Galili G, Kapulnik Y. 2001. Identification of a novel genetically controlled step in mycorrhizal colonization: plant resistance to infection by fungal spores but not extra-radical hyphae. Plant Journal 27: 561569.
  • Downie JA, Bonfante P. 2000. Development and good breeding in legume models: poise and peas? New Phytology 148: 79.
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  • Duc G, Trouvelot A, Gianinazzi-Pearson V, Gianinazzi S. 1989. First report of non-mycorrhizal plant mutants (Myc-)obtained in pea (Pisum sativum L.) and fava bean (Vicia faba L.). Plant Science 60: 215222.
  • Gao L-L, Delp G, Smith E. 2001. Colonisation patterns in a mycorrhiza-defective mutant tomato vary with different arbuscular- mycorrhizal fungi;. New Phytologist 151: 477491.
  • Genre A, Bonfante P. 2002. Epidermal cells of a symbiosis-defective mutant of Lotus japonicus show altered cytoskeleton organisation in the presence of a mycorrhizal fungus. Protoplasma 219: 4350.
  • Gianinazzi-Pearson V, Gianinazzi S, Guillemin JP, Trouvelot A, Duc G. 1991. Genetic and cellular analysis of resistance to vesicular arbuscular (VA) mycorrhizal fungi in pea mutants. In: HenneckeH, VermaDPS, eds. Advances in molecular genetics of plant–microbe interactions. Dordrecht, The Netherlands: Kluwer Academic Publishers, pp. 336342.
  • Giovannetti M, Avio L, Sbrana C, Citernesi AS. 1993. Factors affecting appressorium development in the vesicular-arbuscular mycorrhizal fungus Glomus mosseae (Nicol. & Gerd.) Gerd. & Trappe. New Phytologist 123: 115122.
  • Heath MC. 1997. Signalling between pathogenic rust fungi and resistant or susceptible host plants. Annals of Botany 80: 713720.
  • Hirsch AM, Kapulnik Y. 1998. Signal transduction pathways in mycorrhizal associations: comparisons with the Rhizobium–legume symbiosis. Fungal Genetics and Biology 23: 205212.
  • Leong SA, Williams PH, Ditta GS. 1985. Analysis of the 5′ regulatory region of the gene for delta-aminolevulinic-acid synthetase of Rhizobium meliloti. Nucleic Acids Research 13: 59655976.
  • Marsh JF, Schultze M. 2001. Analysis of arbuscular mycorrhizas using symbiosis-defective plant mutants. New Phytologist 150: 525532.
  • Moore PJ, Staehelin LA. 1988. Immunogold localization of the cell-wall matrix polysaccharides rhamnogalacturonan I and xyloglucan during cell expansion and cytokinesis in Trifolium pratense L., implication for secretory pathways. Planta 174: 433445.
  • Morton JB, Redecker D. 2001. Two new families of Glomales, Archaeosporaceae and Paraglomaceae, with two new genera, Archaeospora and Paraglomus, based on concordant molecular and morphological characters. Mycologia 93: 181195.
  • Parniske M. 2000. Intracellular accommodation of microbes by plants: a common developmental program for symbiosis and disease? Current Opinion in Plant Biology 3: 320328.
  • Resendes CM, Geil RD, Guinel FC. 2001. Mycorrhizal development in a low nodulating pea mutant. New Phytologist 150: 563572.
  • Senoo K, Solaiman MK, Kswaguchi M, Imazumi-Anraku H, Akao S, Tanaka A, Obata H. 2000. Isolation of two different phenotypes of mycorrhizal mutants in the model legume plant Lotus Japonicus after EMS-treatment. Plant Cell Physiology 41: 726732.
  • Smith SE, Dickson S. 1991. Quantification of active vescicular–arbuscular mycorrhizal infection using image analysis and other techniques. Australian Journal of Plant Physiology 18: 637648.
  • Smith SE, Read DJ. 1997. Mycorrhizal Symbiosis. London UK, New York, USA: Academic Press, 1605.
  • Stougaard J. 2001. Genetics and genomics of root symbiosis. Current Opinion in Plant Biology 4: 328335.
  • The Arabidopsis Genome Initiative. 2000. Analysis of the genome sequence of the flowering plant Arabidopsis thaliana. Nature 408: 796815.
  • Trouvelot A, Kough JL, Gianinazzi-Pearson V. 1986. Mesure du taux de mycorhization VA d’un système radiculaire. recherche de méthodes d’estimation ayant une signification functionnelle. In: Lesmycorrhizes: physiologie et génétique. ESM/SEM, Dijon, 1–5 July. Paris, France: INRA Press, 217222.
  • Walker SA, Viprey V, Downie JA. 2000. Dissection of nodulation signaling using pea mutants defective for calcium spiking induced by Nod factors and chitin oligomers. Proceedings of the National Academy of Sciences, USA 24: 1341313418.
  • Wegel E, Schauser L, Sandal N, Stougaard J, Parniske M. 1998. Mycorrhiza mutants of Lotus japonicus define genetically independent steps during symbiotic infection. Molecular Plant Microbe Interactions 11: 933936.