Loss of function at RAE2, a previously unidentified EPFL, is required for awnlessness in cultivated Asian rice

Kanako Bessho-Uehara; Diane R. Wang; Tomoyuki Furuta; Anzu Minami; Keisuke Nagai; Rico Gamuyao; Kenji Asano; Rosalyn B. Angeles-Shim; Yoshihiro Shimizu; Madoka Ayano; Norio Komeda; Kazuyuki Doi; Kotaro Miura; Yosuke Toda; Toshinori Kinoshita; Satohiro Okuda; Tetsuya Higashiyama; Mika Nomoto; Yasuomi Tada; Hidefumi Shinohara; Yoshikatsu Matsubayashi; Anthony Greenberg; Jianzhong Wu; Hideshi Yasui; Atsushi Yoshimurah; Hitoshi Mori; Susan R. McCouch; Motoyuki Ashikari

doi:10.1073/pnas.1604849113

Loss of function at RAE2, a previously unidentified EPFL, is required for awnlessness in cultivated Asian rice

Kanako Bessho-Uehara, Diane R. Wang, Tomoyuki Furuta, Anzu Minami, Keisuke Nagai, Rico Gamuyao, Kenji Asano, Rosalyn B. Angeles-Shim, Yoshihiro Shimizu, Madoka Ayano, Norio Komeda, Kazuyuki Doi, Kotaro Miura, Yosuke Toda, Toshinori Kinoshita, Satohiro Okuda, Tetsuya Higashiyama, Mika Nomoto, Yasuomi Tada, Hidefumi ShinoharaYoshikatsu Matsubayashi, Anthony Greenberg, Jianzhong Wu, Hideshi Yasui, Atsushi Yoshimurah, Hitoshi Mori, Susan R. McCouch, Motoyuki Ashikari

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

83 Citations (Scopus)

Abstract

Domestication of crops based on artificial selection has contributed numerous beneficial traits for agriculture. Wild characteristics such as red pericarp and seed shattering were lost in both Asian (Oryza sativa) and African (Oryza glaberrima) cultivated rice species as a result of human selection on common genes. Awnedness, in contrast, is a trait that has been lost in both cultivated species due to selection on different sets of genes. In a previous report, we revealed that at least three loci regulate awn development in rice; however, the molecular mechanism underlying awnlessness remains unknown. Here we isolate and characterize a previously unidentified EPIDERMAL PATTERNING FACTOR-LIKE (EPFL) family member named REGULATOR OF AWN ELONGATION 2 (RAE2) and identify one of its requisite processing enzymes, SUBTILISIN-LIKE PROTEASE 1 (SLP1). The RAE2 precursor is specifically cleaved by SLP1 in the rice spikelet, where the mature RAE2 peptide subsequently induces awn elongation. Analysis of RAE2 sequence diversity identified a highly variable GC-rich region harboring multiple independent mutations underlying protein-length variation that disrupt the function of the RAE2 protein and condition the awnless phenotype in Asian rice. Cultivated African rice, on the other hand, retained the functional RAE2 allele despite its awnless phenotype. Our findings illuminate the molecular function of RAE2 in awn development and shed light on the independent domestication histories of Asian and African cultivated rice.

Original language	English
Pages (from-to)	8969-8974
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	113
Issue number	32
DOIs	https://doi.org/10.1073/pnas.1604849113
Publication status	Published - Aug 9 2016
Externally published	Yes

Keywords

Awn|
Convergent evolution
Parallel domestication
Rice
Signal peptide

ASJC Scopus subject areas

General

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10.1073/pnas.1604849113

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Bessho-Uehara, K., Wang, D. R., Furuta, T., Minami, A., Nagai, K., Gamuyao, R., Asano, K., Angeles-Shim, R. B., Shimizu, Y., Ayano, M., Komeda, N., Doi, K., Miura, K., Toda, Y., Kinoshita, T., Okuda, S., Higashiyama, T., Nomoto, M., Tada, Y., ... Ashikari, M. (2016). Loss of function at RAE2, a previously unidentified EPFL, is required for awnlessness in cultivated Asian rice. Proceedings of the National Academy of Sciences of the United States of America, 113(32), 8969-8974. https://doi.org/10.1073/pnas.1604849113

Loss of function at RAE2, a previously unidentified EPFL, is required for awnlessness in cultivated Asian rice. / Bessho-Uehara, Kanako; Wang, Diane R.; Furuta, Tomoyuki et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 113, No. 32, 09.08.2016, p. 8969-8974.

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

Bessho-Uehara, K, Wang, DR, Furuta, T, Minami, A, Nagai, K, Gamuyao, R, Asano, K, Angeles-Shim, RB, Shimizu, Y, Ayano, M, Komeda, N, Doi, K, Miura, K, Toda, Y, Kinoshita, T, Okuda, S, Higashiyama, T, Nomoto, M, Tada, Y, Shinohara, H, Matsubayashi, Y, Greenberg, A, Wu, J, Yasui, H, Yoshimurah, A, Mori, H, McCouch, SR & Ashikari, M 2016, 'Loss of function at RAE2, a previously unidentified EPFL, is required for awnlessness in cultivated Asian rice', Proceedings of the National Academy of Sciences of the United States of America, vol. 113, no. 32, pp. 8969-8974. https://doi.org/10.1073/pnas.1604849113

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title = "Loss of function at RAE2, a previously unidentified EPFL, is required for awnlessness in cultivated Asian rice",

abstract = "Domestication of crops based on artificial selection has contributed numerous beneficial traits for agriculture. Wild characteristics such as red pericarp and seed shattering were lost in both Asian (Oryza sativa) and African (Oryza glaberrima) cultivated rice species as a result of human selection on common genes. Awnedness, in contrast, is a trait that has been lost in both cultivated species due to selection on different sets of genes. In a previous report, we revealed that at least three loci regulate awn development in rice; however, the molecular mechanism underlying awnlessness remains unknown. Here we isolate and characterize a previously unidentified EPIDERMAL PATTERNING FACTOR-LIKE (EPFL) family member named REGULATOR OF AWN ELONGATION 2 (RAE2) and identify one of its requisite processing enzymes, SUBTILISIN-LIKE PROTEASE 1 (SLP1). The RAE2 precursor is specifically cleaved by SLP1 in the rice spikelet, where the mature RAE2 peptide subsequently induces awn elongation. Analysis of RAE2 sequence diversity identified a highly variable GC-rich region harboring multiple independent mutations underlying protein-length variation that disrupt the function of the RAE2 protein and condition the awnless phenotype in Asian rice. Cultivated African rice, on the other hand, retained the functional RAE2 allele despite its awnless phenotype. Our findings illuminate the molecular function of RAE2 in awn development and shed light on the independent domestication histories of Asian and African cultivated rice.",

keywords = "Awn|, Convergent evolution, Parallel domestication, Rice, Signal peptide",

author = "Kanako Bessho-Uehara and Wang, {Diane R.} and Tomoyuki Furuta and Anzu Minami and Keisuke Nagai and Rico Gamuyao and Kenji Asano and Angeles-Shim, {Rosalyn B.} and Yoshihiro Shimizu and Madoka Ayano and Norio Komeda and Kazuyuki Doi and Kotaro Miura and Yosuke Toda and Toshinori Kinoshita and Satohiro Okuda and Tetsuya Higashiyama and Mika Nomoto and Yasuomi Tada and Hidefumi Shinohara and Yoshikatsu Matsubayashi and Anthony Greenberg and Jianzhong Wu and Hideshi Yasui and Atsushi Yoshimurah and Hitoshi Mori and McCouch, {Susan R.} and Motoyuki Ashikari",

note = "Funding Information: We thank Dr. H. Tsuji for donating the pANDA vector, Dr. T. Nakagawa for providing the pGWB binary vectors, Dr. Y. Sato for help with SEM, and the National BioResource Project for providing the seeds of the GLSL and O. glaberrima lines. This research was supported by a Japan Society for the Promotion of Science fellowship, the Integrative Graduate Education and Research Program in Green Natural Sciences of Nagoya University, a MEXT Grant-in-Aid for Scientific Research on Innovative Areas (Grant 16H01464), SATREPS by JICA and JST, Core Research for Evolutional Science and Technology by JST, Global Crop Diversity Trust Grant GS12004, and National Science Foundation Graduate Research Fellowship DGE-1144153 (to D.R.W.).",

year = "2016",

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doi = "10.1073/pnas.1604849113",

language = "English",

volume = "113",

pages = "8969--8974",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

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T1 - Loss of function at RAE2, a previously unidentified EPFL, is required for awnlessness in cultivated Asian rice

AU - Bessho-Uehara, Kanako

AU - Wang, Diane R.

AU - Furuta, Tomoyuki

AU - Minami, Anzu

AU - Nagai, Keisuke

AU - Gamuyao, Rico

AU - Asano, Kenji

AU - Angeles-Shim, Rosalyn B.

AU - Shimizu, Yoshihiro

AU - Ayano, Madoka

AU - Komeda, Norio

AU - Doi, Kazuyuki

AU - Miura, Kotaro

AU - Toda, Yosuke

AU - Kinoshita, Toshinori

AU - Okuda, Satohiro

AU - Higashiyama, Tetsuya

AU - Nomoto, Mika

AU - Tada, Yasuomi

AU - Shinohara, Hidefumi

AU - Matsubayashi, Yoshikatsu

AU - Greenberg, Anthony

AU - Wu, Jianzhong

AU - Yasui, Hideshi

AU - Yoshimurah, Atsushi

AU - Mori, Hitoshi

AU - McCouch, Susan R.

AU - Ashikari, Motoyuki

N1 - Funding Information: We thank Dr. H. Tsuji for donating the pANDA vector, Dr. T. Nakagawa for providing the pGWB binary vectors, Dr. Y. Sato for help with SEM, and the National BioResource Project for providing the seeds of the GLSL and O. glaberrima lines. This research was supported by a Japan Society for the Promotion of Science fellowship, the Integrative Graduate Education and Research Program in Green Natural Sciences of Nagoya University, a MEXT Grant-in-Aid for Scientific Research on Innovative Areas (Grant 16H01464), SATREPS by JICA and JST, Core Research for Evolutional Science and Technology by JST, Global Crop Diversity Trust Grant GS12004, and National Science Foundation Graduate Research Fellowship DGE-1144153 (to D.R.W.).

PY - 2016/8/9

Y1 - 2016/8/9

N2 - Domestication of crops based on artificial selection has contributed numerous beneficial traits for agriculture. Wild characteristics such as red pericarp and seed shattering were lost in both Asian (Oryza sativa) and African (Oryza glaberrima) cultivated rice species as a result of human selection on common genes. Awnedness, in contrast, is a trait that has been lost in both cultivated species due to selection on different sets of genes. In a previous report, we revealed that at least three loci regulate awn development in rice; however, the molecular mechanism underlying awnlessness remains unknown. Here we isolate and characterize a previously unidentified EPIDERMAL PATTERNING FACTOR-LIKE (EPFL) family member named REGULATOR OF AWN ELONGATION 2 (RAE2) and identify one of its requisite processing enzymes, SUBTILISIN-LIKE PROTEASE 1 (SLP1). The RAE2 precursor is specifically cleaved by SLP1 in the rice spikelet, where the mature RAE2 peptide subsequently induces awn elongation. Analysis of RAE2 sequence diversity identified a highly variable GC-rich region harboring multiple independent mutations underlying protein-length variation that disrupt the function of the RAE2 protein and condition the awnless phenotype in Asian rice. Cultivated African rice, on the other hand, retained the functional RAE2 allele despite its awnless phenotype. Our findings illuminate the molecular function of RAE2 in awn development and shed light on the independent domestication histories of Asian and African cultivated rice.

AB - Domestication of crops based on artificial selection has contributed numerous beneficial traits for agriculture. Wild characteristics such as red pericarp and seed shattering were lost in both Asian (Oryza sativa) and African (Oryza glaberrima) cultivated rice species as a result of human selection on common genes. Awnedness, in contrast, is a trait that has been lost in both cultivated species due to selection on different sets of genes. In a previous report, we revealed that at least three loci regulate awn development in rice; however, the molecular mechanism underlying awnlessness remains unknown. Here we isolate and characterize a previously unidentified EPIDERMAL PATTERNING FACTOR-LIKE (EPFL) family member named REGULATOR OF AWN ELONGATION 2 (RAE2) and identify one of its requisite processing enzymes, SUBTILISIN-LIKE PROTEASE 1 (SLP1). The RAE2 precursor is specifically cleaved by SLP1 in the rice spikelet, where the mature RAE2 peptide subsequently induces awn elongation. Analysis of RAE2 sequence diversity identified a highly variable GC-rich region harboring multiple independent mutations underlying protein-length variation that disrupt the function of the RAE2 protein and condition the awnless phenotype in Asian rice. Cultivated African rice, on the other hand, retained the functional RAE2 allele despite its awnless phenotype. Our findings illuminate the molecular function of RAE2 in awn development and shed light on the independent domestication histories of Asian and African cultivated rice.

KW - Awn|

KW - Convergent evolution

KW - Parallel domestication

KW - Rice

KW - Signal peptide

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

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ER -

Loss of function at RAE2, a previously unidentified EPFL, is required for awnlessness in cultivated Asian rice

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Keywords

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