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An Ancestral Function of Strigolactones as Symbiotic Rhizosphere Signals

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Kodama, Kyoichi | Rich, Mélanie | Yoda, Akiyoshi | Shimazaki, Shota | Xie, Xiaonan | Akiyama, Kohki | Mizuno, Yohei | Komatsu, Aino | Luo, Yi | Suzuki, Hidemasa | Kameoka, Hiromu | Libourel, Cyril | Keller, Jean | Sakakibara, Keiko | Nishiyama, Tomoaki | Nakagawa, Tomomi | Mashiguchi, Kiyoshi | Uchida, Kenichi | Yoneyama, Kaori | Tanaka, Yoshikazu | Yamaguchi, Shinjiro | Shimamura, Masaki | Delaux, Pierre-Marc | Nomura, Takahito | Kyozuka, Junko

Edité par CCSD ; Nature Publishing Group -

International audience. In flowering plants, carotenoid-derived strigolactones (SLs) have dual functions as hormones that regulate growth and development, and as rhizosphere signaling molecules that induce symbiosis with arbuscular mycorrhizal (AM) fungi. Here, we report the identification of bryosymbiol (BSB), a previously unidentified SL from the bryophyte Marchantia paleacea . BSB is also found in vascular plants, indicating that it is ancestral in land plants. BSB synthesis is enhanced at AM symbiosis permissive conditions and BSB deficient mutants are impaired in AM symbiosis. In contrast, the absence of BSB synthesis has little effect on the growth and gene expression. We show that the introduction of the SL receptor of Arabidopsis renders M. paleacea cells BSB-responsive. These results suggest that BSB is not perceived by M. paleacea cells due to the lack of cognate SL receptors. We propose that SLs originated as AM symbiosis-inducing rhizosphere signaling molecules and were later recruited as plant hormone.

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