@article{fdi:010053596,
  title = {{S}ymbiotic signaling in actinorhizal symbioses},
  author = {{P}errine {W}alker, {F}rancine and {G}herbi, {H}assen and {I}manishi, {L}eandro and {H}ocher, {V}al{\'e}rie and {G}hodhbane {G}tari, {F}aten and {L}avenus, {J}ulien and {B}enabdoun, {F}aiza {M}eriem and {N}ambiar-{V}eetil, {M}. and {S}vistoonoff, {S}ergio and {L}aplaze, {L}aurent},
  editor = {},
  language = {{ENG}},
  abstract = {{A}ctinorhizal symbioses are mutualistic associations between plants belonging to eight angiosperm families and soil bacteria of the genus {F}rankia. {T}hese interactions lead to the formation of new root organs, actinorhizal nodules, where the bacteria are hosted and fix atmospheric nitrogen thus providing the plant with an almost unlimited source of nitrogen for its nutrition. {I}t involves an elaborate signaling between both partners of the symbiosis. {I}n recent years, our knowledge of this signaling pathway has increased tremendously thanks to a series of technical breakthroughs including the sequencing of three {F}rankia genomes [1] and the implementation of {RNA} silencing technology for two actinorhizal species. {I}n this review, we describe all these recent advances, current researches on symbiotic signaling in actinorhizal symbioses and give some potential future research directions.},
  keywords = {{A}ctinomycete ; auxin ; legume ; mycorrhiza ; biological nitrogen fixation ; {R}hizobium ; symbiosis ; {SYMRK}},
  booktitle = {},
  journal = {{C}urrent {P}rotein and {P}eptide {S}cience},
  volume = {12},
  numero = {2},
  pages = {156--164},
  ISSN = {1389-2037},
  year = {2011},
  DOI = {10.2174/138920311795684896},
  URL = {https://www.documentation.ird.fr/hor/fdi:010053596},
}