Red/Far Red Light Controls Arbuscular Mycorrhizal Colonization via Jasmonic Acid and Strigolactone Signaling

Maki Nagata; Naoya Yamamoto; Tamaki Shigeyama; Yohei Terasawa; Toyoaki Anai; Tatsuya Sakai; Sayaka Inada; Susumu Arima; Masatsugu Hashiguchi; Ryo Akashi; Hideyuki Nakayama; Daisuke Ueno; Ann M. Hirsch; Akihiro Suzuki

doi:10.1093/pcp/pcv135

Red/Far Red Light Controls Arbuscular Mycorrhizal Colonization via Jasmonic Acid and Strigolactone Signaling

Maki Nagata, Naoya Yamamoto, Tamaki Shigeyama, Yohei Terasawa, Toyoaki Anai, Tatsuya Sakai, Sayaka Inada, Susumu Arima, Masatsugu Hashiguchi, Ryo Akashi, Hideyuki Nakayama, Daisuke Ueno, Ann M. Hirsch, Akihiro Suzuki

Research output: Contribution to journal › Article › peer-review

40 Citations (Scopus)

Abstract

Establishment of a nitrogen-fixing symbiosis between legumes and rhizobia not only requires sufficient photosynthate, but also the sensing of the ratio of red to far red (R/FR) light. Here, we show that R/FR light sensing also positively influences the arbuscular mycorrhizal (AM) symbiosis of a legume and a non-legume through jasmonic acid (JA) and strigolactone (SL) signaling. The level of AM colonization in high R/FR light-grown tomato and Lotus japonicus significantly increased compared with that determined for low R/FR light-grown plants. Transcripts for JA-related genes were also elevated under high R/FR conditions. The root exudates derived from high R/FR light-grown plants contained more (+)-5-deoxystrigol, an AM-fungal hyphal branching inducer, than those from low R/FR light-grown plants. In summary, high R/FR light changes not only the levels of JA and SL synthesis, but also the composition of plant root exudates released into the rhizosphere, in this way augmenting the AM symbiosis.

Original language	English
Pages (from-to)	2100-2109
Number of pages	10
Journal	Plant and Cell Physiology
Volume	56
Issue number	11
DOIs	https://doi.org/10.1093/pcp/pcv135
Publication status	Published - Nov 1 2015
Externally published	Yes

All Science Journal Classification (ASJC) codes

Physiology
Plant Science
Cell Biology

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10.1093/pcp/pcv135

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Nagata, M., Yamamoto, N., Shigeyama, T., Terasawa, Y., Anai, T., Sakai, T., Inada, S., Arima, S., Hashiguchi, M., Akashi, R., Nakayama, H., Ueno, D., Hirsch, A. M., & Suzuki, A. (2015). Red/Far Red Light Controls Arbuscular Mycorrhizal Colonization via Jasmonic Acid and Strigolactone Signaling. Plant and Cell Physiology, 56(11), 2100-2109. https://doi.org/10.1093/pcp/pcv135

Nagata, M, Yamamoto, N, Shigeyama, T, Terasawa, Y, Anai, T, Sakai, T, Inada, S, Arima, S, Hashiguchi, M, Akashi, R, Nakayama, H, Ueno, D, Hirsch, AM & Suzuki, A 2015, 'Red/Far Red Light Controls Arbuscular Mycorrhizal Colonization via Jasmonic Acid and Strigolactone Signaling', Plant and Cell Physiology, vol. 56, no. 11, pp. 2100-2109. https://doi.org/10.1093/pcp/pcv135

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title = "Red/Far Red Light Controls Arbuscular Mycorrhizal Colonization via Jasmonic Acid and Strigolactone Signaling",

abstract = "Establishment of a nitrogen-fixing symbiosis between legumes and rhizobia not only requires sufficient photosynthate, but also the sensing of the ratio of red to far red (R/FR) light. Here, we show that R/FR light sensing also positively influences the arbuscular mycorrhizal (AM) symbiosis of a legume and a non-legume through jasmonic acid (JA) and strigolactone (SL) signaling. The level of AM colonization in high R/FR light-grown tomato and Lotus japonicus significantly increased compared with that determined for low R/FR light-grown plants. Transcripts for JA-related genes were also elevated under high R/FR conditions. The root exudates derived from high R/FR light-grown plants contained more (+)-5-deoxystrigol, an AM-fungal hyphal branching inducer, than those from low R/FR light-grown plants. In summary, high R/FR light changes not only the levels of JA and SL synthesis, but also the composition of plant root exudates released into the rhizosphere, in this way augmenting the AM symbiosis.",

author = "Maki Nagata and Naoya Yamamoto and Tamaki Shigeyama and Yohei Terasawa and Toyoaki Anai and Tatsuya Sakai and Sayaka Inada and Susumu Arima and Masatsugu Hashiguchi and Ryo Akashi and Hideyuki Nakayama and Daisuke Ueno and Hirsch, {Ann M.} and Akihiro Suzuki",

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AU - Nagata, Maki

AU - Yamamoto, Naoya

AU - Shigeyama, Tamaki

AU - Terasawa, Yohei

AU - Anai, Toyoaki

AU - Sakai, Tatsuya

AU - Inada, Sayaka

AU - Arima, Susumu

AU - Hashiguchi, Masatsugu

AU - Akashi, Ryo

AU - Nakayama, Hideyuki

AU - Ueno, Daisuke

AU - Hirsch, Ann M.

AU - Suzuki, Akihiro

PY - 2015/11/1

Y1 - 2015/11/1

N2 - Establishment of a nitrogen-fixing symbiosis between legumes and rhizobia not only requires sufficient photosynthate, but also the sensing of the ratio of red to far red (R/FR) light. Here, we show that R/FR light sensing also positively influences the arbuscular mycorrhizal (AM) symbiosis of a legume and a non-legume through jasmonic acid (JA) and strigolactone (SL) signaling. The level of AM colonization in high R/FR light-grown tomato and Lotus japonicus significantly increased compared with that determined for low R/FR light-grown plants. Transcripts for JA-related genes were also elevated under high R/FR conditions. The root exudates derived from high R/FR light-grown plants contained more (+)-5-deoxystrigol, an AM-fungal hyphal branching inducer, than those from low R/FR light-grown plants. In summary, high R/FR light changes not only the levels of JA and SL synthesis, but also the composition of plant root exudates released into the rhizosphere, in this way augmenting the AM symbiosis.

AB - Establishment of a nitrogen-fixing symbiosis between legumes and rhizobia not only requires sufficient photosynthate, but also the sensing of the ratio of red to far red (R/FR) light. Here, we show that R/FR light sensing also positively influences the arbuscular mycorrhizal (AM) symbiosis of a legume and a non-legume through jasmonic acid (JA) and strigolactone (SL) signaling. The level of AM colonization in high R/FR light-grown tomato and Lotus japonicus significantly increased compared with that determined for low R/FR light-grown plants. Transcripts for JA-related genes were also elevated under high R/FR conditions. The root exudates derived from high R/FR light-grown plants contained more (+)-5-deoxystrigol, an AM-fungal hyphal branching inducer, than those from low R/FR light-grown plants. In summary, high R/FR light changes not only the levels of JA and SL synthesis, but also the composition of plant root exudates released into the rhizosphere, in this way augmenting the AM symbiosis.

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Red/Far Red Light Controls Arbuscular Mycorrhizal Colonization via Jasmonic Acid and Strigolactone Signaling

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