A rice Serine/Threonine receptor-like kinase regulates arbuscular mycorrhizal symbiosis at the peri-arbuscular membrane

Ronelle Roth; Marco Chiapello; Héctor Montero; Peter Gehrig; Jonas Grossmann; Kevin O’Holleran; Denise Hartken; Fergus Walters; Shu Yi Yang; Stefan Hillmer; Karin Schumacher; Sarah Bowden; Melanie Craze; Emma J. Wallington; Akio Miyao; Ruairidh Sawers; Enrico Martinoia; Uta Paszkowski

doi:10.1038/s41467-018-06865-z

A rice Serine/Threonine receptor-like kinase regulates arbuscular mycorrhizal symbiosis at the peri-arbuscular membrane

Ronelle Roth, Marco Chiapello, Héctor Montero, Peter Gehrig, Jonas Grossmann, Kevin O’Holleran, Denise Hartken, Fergus Walters, Shu Yi Yang, Stefan Hillmer, Karin Schumacher, Sarah Bowden, Melanie Craze, Emma J. Wallington, Akio Miyao, Ruairidh Sawers, Enrico Martinoia, Uta Paszkowski

Plant Science

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

45 Scopus citations

Abstract

In terrestrial ecosystems most plant species live in mutualistic symbioses with nutrient-delivering arbuscular mycorrhizal (AM) fungi. Establishment of AM symbioses includes transient, intracellular formation of fungal feeding structures, the arbuscules. A plant-derived peri-arbuscular membrane (PAM) surrounds the arbuscules, mediating reciprocal nutrient exchange. Signaling at the PAM must be well coordinated to achieve this dynamic cellular intimacy. Here, we identify the PAM-specific Arbuscular Receptor-like Kinase 1 (ARK1) from maize and rice to condition sustained AM symbiosis. Mutation of rice ARK1 causes a significant reduction in vesicles, the fungal storage structures, and a concomitant reduction in overall root colonization by the AM fungus Rhizophagus irregularis. Arbuscules, although less frequent in the ark1 mutant, are morphologically normal. Co-cultivation with wild-type plants restores vesicle and spore formation, suggesting ARK1 function is required for the completion of the fungal life-cycle, thereby defining a functional stage, post arbuscule development.

Original language	English (US)
Article number	4677
Journal	Nature communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-06865-z
State	Published - Dec 1 2018

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Roth, R., Chiapello, M., Montero, H., Gehrig, P., Grossmann, J., O’Holleran, K., Hartken, D., Walters, F., Yang, S. Y., Hillmer, S., Schumacher, K., Bowden, S., Craze, M., Wallington, E. J., Miyao, A., Sawers, R., Martinoia, E., & Paszkowski, U. (2018). A rice Serine/Threonine receptor-like kinase regulates arbuscular mycorrhizal symbiosis at the peri-arbuscular membrane. Nature communications, 9(1), Article 4677. https://doi.org/10.1038/s41467-018-06865-z

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title = "A rice Serine/Threonine receptor-like kinase regulates arbuscular mycorrhizal symbiosis at the peri-arbuscular membrane",

abstract = "In terrestrial ecosystems most plant species live in mutualistic symbioses with nutrient-delivering arbuscular mycorrhizal (AM) fungi. Establishment of AM symbioses includes transient, intracellular formation of fungal feeding structures, the arbuscules. A plant-derived peri-arbuscular membrane (PAM) surrounds the arbuscules, mediating reciprocal nutrient exchange. Signaling at the PAM must be well coordinated to achieve this dynamic cellular intimacy. Here, we identify the PAM-specific Arbuscular Receptor-like Kinase 1 (ARK1) from maize and rice to condition sustained AM symbiosis. Mutation of rice ARK1 causes a significant reduction in vesicles, the fungal storage structures, and a concomitant reduction in overall root colonization by the AM fungus Rhizophagus irregularis. Arbuscules, although less frequent in the ark1 mutant, are morphologically normal. Co-cultivation with wild-type plants restores vesicle and spore formation, suggesting ARK1 function is required for the completion of the fungal life-cycle, thereby defining a functional stage, post arbuscule development.",

author = "Ronelle Roth and Marco Chiapello and H{\'e}ctor Montero and Peter Gehrig and Jonas Grossmann and Kevin O{\textquoteright}Holleran and Denise Hartken and Fergus Walters and Yang, {Shu Yi} and Stefan Hillmer and Karin Schumacher and Sarah Bowden and Melanie Craze and Wallington, {Emma J.} and Akio Miyao and Ruairidh Sawers and Enrico Martinoia and Uta Paszkowski",

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doi = "10.1038/s41467-018-06865-z",

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Roth, R, Chiapello, M, Montero, H, Gehrig, P, Grossmann, J, O’Holleran, K, Hartken, D, Walters, F, Yang, SY, Hillmer, S, Schumacher, K, Bowden, S, Craze, M, Wallington, EJ, Miyao, A, Sawers, R, Martinoia, E & Paszkowski, U 2018, 'A rice Serine/Threonine receptor-like kinase regulates arbuscular mycorrhizal symbiosis at the peri-arbuscular membrane', Nature communications, vol. 9, no. 1, 4677. https://doi.org/10.1038/s41467-018-06865-z

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T1 - A rice Serine/Threonine receptor-like kinase regulates arbuscular mycorrhizal symbiosis at the peri-arbuscular membrane

AU - Roth, Ronelle

AU - Chiapello, Marco

AU - Montero, Héctor

AU - Gehrig, Peter

AU - Grossmann, Jonas

AU - O’Holleran, Kevin

AU - Hartken, Denise

AU - Walters, Fergus

AU - Yang, Shu Yi

AU - Hillmer, Stefan

AU - Schumacher, Karin

AU - Bowden, Sarah

AU - Craze, Melanie

AU - Wallington, Emma J.

AU - Miyao, Akio

AU - Sawers, Ruairidh

AU - Martinoia, Enrico

AU - Paszkowski, Uta

PY - 2018/12/1

Y1 - 2018/12/1

N2 - In terrestrial ecosystems most plant species live in mutualistic symbioses with nutrient-delivering arbuscular mycorrhizal (AM) fungi. Establishment of AM symbioses includes transient, intracellular formation of fungal feeding structures, the arbuscules. A plant-derived peri-arbuscular membrane (PAM) surrounds the arbuscules, mediating reciprocal nutrient exchange. Signaling at the PAM must be well coordinated to achieve this dynamic cellular intimacy. Here, we identify the PAM-specific Arbuscular Receptor-like Kinase 1 (ARK1) from maize and rice to condition sustained AM symbiosis. Mutation of rice ARK1 causes a significant reduction in vesicles, the fungal storage structures, and a concomitant reduction in overall root colonization by the AM fungus Rhizophagus irregularis. Arbuscules, although less frequent in the ark1 mutant, are morphologically normal. Co-cultivation with wild-type plants restores vesicle and spore formation, suggesting ARK1 function is required for the completion of the fungal life-cycle, thereby defining a functional stage, post arbuscule development.

AB - In terrestrial ecosystems most plant species live in mutualistic symbioses with nutrient-delivering arbuscular mycorrhizal (AM) fungi. Establishment of AM symbioses includes transient, intracellular formation of fungal feeding structures, the arbuscules. A plant-derived peri-arbuscular membrane (PAM) surrounds the arbuscules, mediating reciprocal nutrient exchange. Signaling at the PAM must be well coordinated to achieve this dynamic cellular intimacy. Here, we identify the PAM-specific Arbuscular Receptor-like Kinase 1 (ARK1) from maize and rice to condition sustained AM symbiosis. Mutation of rice ARK1 causes a significant reduction in vesicles, the fungal storage structures, and a concomitant reduction in overall root colonization by the AM fungus Rhizophagus irregularis. Arbuscules, although less frequent in the ark1 mutant, are morphologically normal. Co-cultivation with wild-type plants restores vesicle and spore formation, suggesting ARK1 function is required for the completion of the fungal life-cycle, thereby defining a functional stage, post arbuscule development.

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A rice Serine/Threonine receptor-like kinase regulates arbuscular mycorrhizal symbiosis at the peri-arbuscular membrane

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