References
- Benson DR, Silvester WB. Biology of frankia strains, actinomycete symbionts of actinorhizal plants. Microbial Rev 1993; 57:293 - 319
- Pawlowski K, Bisseling T. Rhizobial and actinorhizal symbioses: what are the shared features?. Plant Cell 1996; 8:1899 - 1913
- Perrine-Walker F, Gherbi H, Imanishi L, Hocher V, Ghodhbane-Gtari F, Lavenus J, et al. Symbiotic signaling in actinorhizal symbioses. Curr Protein Pept Sci 2011; 12:156 - 164
- Hocher V, Alloisio N, Auguy F, Fournier P, Doumas P, Pujic P, et al. Transcriptomics of actinorhizal symbioses reveals homologs of the whole common symbiotic signaling cascade. Plant Physiol 2011; 156:700 - 711
- Auguy F, Abdel-Lateif K, Doumas P, Badin P, Guerin P, Bogusz D, et al. Isoflavonoids pathway activation in actinorhizal symbioses. Funct Plant Biol 2011; 38:690 - 696
- Perrine-Walker F, Doumas P, Lucas M, Vaissayre V, Beauchemin NJ, Band LR. Auxin carriers localization drives auxin accumulation in plant cells infected by Frankia in Casuarina glauca actinorhizal nodules. Plant Physiol 2010; 154:1372 - 1380
- Hocher V, Auguy F, Argout X, Laplaze L, Franche C, Bogusz D. Expressed sequence-tag analysis in Casuarina glauca actinorhizal nodule and root. New Phytol 2006; 169:681 - 688
- Capoen W, Den Herder J, Sunc J, Verplancke C, De Keyser A, De Rycke R, et al. Calcium spiking patterns and the role of the calcium/calmodulin-dependent kinase CCaMK in lateral root base nodulation of Sesbania rostrata. Plant Cell 2009; 21:1526 - 1540
- Markmann K, Parniske M. Evolution of root endosymbiosis with bacteria: how novel are nodules?. Trends Plant Sci 2009; 14:77 - 86
- Madsen LH, Tirichine L, Jurkiewicz A, Sullivan JT, Heckmann AB, Bek AS, et al. The molecular network governing nodule organogenesis and infection in the model legume Lotus japonicus. Nat Commun 2010; 1:1 - 12
- Subramanian S, Stacey G, Yu O. Distinct, crucial roles of flavonoids during legume nodulation. Trends Plant Sci 2007; 12:282 - 285
- Péret B, Swarup R, Jansen L, Devos G, Auguy F, Collin M, et al. Auxin influx activity is associated with Frankia infection during actinorhizal nodule formation in Casuarina glauca. Plant Physiol 2007; 144:1852 - 1862
- Hammad Y, Nalin R, Marechal J, Fiasson K, Pepin R, Berry AM, et al. A possible role for phenyl acetic acid (PAA) on Alnus glutinosa nodulation by Frankia. Plant Soil 2003; 254:193 - 205
- Normand P, Lapierre P, Tisa LS, Gogarten JP, Alloisio N, Bagnarol E, et al. Genome characteristics of facultatively symbiotic Frankia sp. strains reflect host range and host plant biogeography. Genome Res 2007; 17:7 - 15
- Popovici J, Comte G, Bagnarol E, Alloisio N, Fournier P, Bellvert, et al. Differential effects of rare specific flavonoids on compatible and incompatible strains in the Myrica gale-Frankia actinorhizal symbiosis. Appl Environ Microbiol 2010; 76:2451 - 2460
- Ceremonie H, Debelle F, Fernandez MP. Structural and functional comparison of Frankia root hair deforming factor and rhizobia Nod factor. Can J Bot 1999; 77:1293 - 1301