@article{fdi:010066798,
  title = {{R}ecent advances in actinorhizal symbiosis signaling},
  author = {{F}roussart, {E}milie and {B}onneau, {J}ocelyne and {F}ranche, {C}laudine and {B}ogusz, {D}idier},
  editor = {},
  language = {{ENG}},
  abstract = {{N}itrogen and phosphorus availability are frequent limiting factors in plant growth and development. {C}ertain bacteria and fungi form root endosymbiotic relationships with plants enabling them to exploit atmospheric nitrogen and soil phosphorus. {T}he relationships between bacteria and plants include nitrogen-fixing {G}ram-negative proteobacteria called rhizobia that are able to interact with most leguminous plants ({F}abaceae) but also with the non-legume {P}arasponia ({C}annabaceae), and actinobacteria {F}rankia, which are able to interact with about 260 species collectively called actinorhizal plants. {F}ungi involved in the relationship with plants include {G}lomeromycota that form an arbuscular mycorrhizal ({AM}) association intracellularly within the roots of more than 80 % of land plants. {I}ncreasing numbers of reports suggest that the rhizobial association with legumes has recycled part of the ancestral program used by most plants to interact with {AM} fungi. {T}his review focuses on the most recent progress made in plant genetic control of root nodulation that occurs in non-legume actinorhizal plant species.},
  keywords = {{A}ctinorhizal plants ; {S}ignaling ; {N}itrogen-fixing root nodule symbiosis ; {N}odulation ; {F}rankia ; {R}hizobia},
  booktitle = {},
  journal = {{P}lant {M}olecular {B}iology},
  volume = {90},
  numero = {6},
  pages = {613--622},
  ISSN = {0167-4412},
  year = {2016},
  DOI = {10.1007/s11103-016-0450-2},
  URL = {https://www.documentation.ird.fr/hor/fdi:010066798},
}