Ethylene-gibberellin signaling underlies adaptation of rice to periodic flooding
Deepwater rice varieties grow taller when flooded, in a growth response driven by the plant hormones gibberellin and ethylene. This keeps the leaves above the water. Kuroha et al. identified the genes underlying this phenotype, which encode a component of the gibberellin biosynthetic pathway and its...
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| Published in | Science (American Association for the Advancement of Science) Vol. 361; no. 6398; pp. 181 - 186 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
The American Association for the Advancement of Science
13.07.2018
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| Subjects | |
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| Abstract | Deepwater rice varieties grow taller when flooded, in a growth response driven by the plant hormones gibberellin and ethylene. This keeps the leaves above the water. Kuroha
et al.
identified the genes underlying this phenotype, which encode a component of the gibberellin biosynthetic pathway and its regulatory ethylene-responsive transcription factor. This genetic relay drives growth of the plant stem internodes in response to flooding. Modern cultivated deepwater rice, which has been domesticated for adaptation to the monsoon season of Bangladesh, emerged from the genetic variation found in wild rice strains over a broader geographic region.
Science
, this issue p.
181
Ethylene-inducible activation of gibberellin biosynthesis helps rice survive long periods of submersion in flooded plots.
Most plants do poorly when flooded. Certain rice varieties, known as deepwater rice, survive periodic flooding and consequent oxygen deficiency by activating internode growth of stems to keep above the water. Here, we identify the gibberellin biosynthesis gene,
SD1
(
SEMIDWARF1
), whose loss-of-function allele catapulted the rice Green Revolution, as being responsible for submergence-induced internode elongation. When submerged, plants carrying the deepwater rice–specific
SD1
haplotype amplify a signaling relay in which the
SD1
gene is transcriptionally activated by an ethylene-responsive transcription factor, OsEIL1a. The SD1 protein directs increased synthesis of gibberellins, largely GA
4
, which promote internode elongation. Evolutionary analysis shows that the deepwater rice–specific haplotype was derived from standing variation in wild rice and selected for deepwater rice cultivation in Bangladesh. |
|---|---|
| AbstractList | Most plants do poorly when flooded. Certain rice varieties, known as deepwater rice, survive periodic flooding and consequent oxygen deficiency by activating internode growth of stems to keep above the water. Here, we identify the gibberellin biosynthesis gene,
(
), whose loss-of-function allele catapulted the rice Green Revolution, as being responsible for submergence-induced internode elongation. When submerged, plants carrying the deepwater rice-specific
haplotype amplify a signaling relay in which the
gene is transcriptionally activated by an ethylene-responsive transcription factor, OsEIL1a. The SD1 protein directs increased synthesis of gibberellins, largely GA
, which promote internode elongation. Evolutionary analysis shows that the deepwater rice-specific haplotype was derived from standing variation in wild rice and selected for deepwater rice cultivation in Bangladesh. Deepwater rice varieties grow taller when flooded, in a growth response driven by the plant hormones gibberellin and ethylene. This keeps the leaves above the water. Kuroha et al. identified the genes underlying this phenotype, which encode a component of the gibberellin biosynthetic pathway and its regulatory ethylene-responsive transcription factor. This genetic relay drives growth of the plant stem internodes in response to flooding. Modern cultivated deepwater rice, which has been domesticated for adaptation to the monsoon season of Bangladesh, emerged from the genetic variation found in wild rice strains over a broader geographic region. Science , this issue p. 181 Ethylene-inducible activation of gibberellin biosynthesis helps rice survive long periods of submersion in flooded plots. Most plants do poorly when flooded. Certain rice varieties, known as deepwater rice, survive periodic flooding and consequent oxygen deficiency by activating internode growth of stems to keep above the water. Here, we identify the gibberellin biosynthesis gene, SD1 ( SEMIDWARF1 ), whose loss-of-function allele catapulted the rice Green Revolution, as being responsible for submergence-induced internode elongation. When submerged, plants carrying the deepwater rice–specific SD1 haplotype amplify a signaling relay in which the SD1 gene is transcriptionally activated by an ethylene-responsive transcription factor, OsEIL1a. The SD1 protein directs increased synthesis of gibberellins, largely GA 4 , which promote internode elongation. Evolutionary analysis shows that the deepwater rice–specific haplotype was derived from standing variation in wild rice and selected for deepwater rice cultivation in Bangladesh. Most plants do poorly when flooded. Certain rice varieties, known as deepwater rice, survive periodic flooding and consequent oxygen deficiency by activating internode growth of stems to keep above the water. Here, we identify the gibberellin biosynthesis gene, SD1 (SEMIDWARF1), whose loss-of-function allele catapulted the rice Green Revolution, as being responsible for submergence-induced internode elongation. When submerged, plants carrying the deepwater rice-specific SD1 haplotype amplify a signaling relay in which the SD1 gene is transcriptionally activated by an ethylene-responsive transcription factor, OsEIL1a. The SD1 protein directs increased synthesis of gibberellins, largely GA4, which promote internode elongation. Evolutionary analysis shows that the deepwater rice-specific haplotype was derived from standing variation in wild rice and selected for deepwater rice cultivation in Bangladesh.Most plants do poorly when flooded. Certain rice varieties, known as deepwater rice, survive periodic flooding and consequent oxygen deficiency by activating internode growth of stems to keep above the water. Here, we identify the gibberellin biosynthesis gene, SD1 (SEMIDWARF1), whose loss-of-function allele catapulted the rice Green Revolution, as being responsible for submergence-induced internode elongation. When submerged, plants carrying the deepwater rice-specific SD1 haplotype amplify a signaling relay in which the SD1 gene is transcriptionally activated by an ethylene-responsive transcription factor, OsEIL1a. The SD1 protein directs increased synthesis of gibberellins, largely GA4, which promote internode elongation. Evolutionary analysis shows that the deepwater rice-specific haplotype was derived from standing variation in wild rice and selected for deepwater rice cultivation in Bangladesh. How rice defeats the floodwatersDeepwater rice varieties grow taller when flooded, in a growth response driven by the plant hormones gibberellin and ethylene. This keeps the leaves above the water. Kuroha et al. identified the genes underlying this phenotype, which encode a component of the gibberellin biosynthetic pathway and its regulatory ethylene-responsive transcription factor. This genetic relay drives growth of the plant stem internodes in response to flooding. Modern cultivated deepwater rice, which has been domesticated for adaptation to the monsoon season of Bangladesh, emerged from the genetic variation found in wild rice strains over a broader geographic region.Science, this issue p. 181Most plants do poorly when flooded. Certain rice varieties, known as deepwater rice, survive periodic flooding and consequent oxygen deficiency by activating internode growth of stems to keep above the water. Here, we identify the gibberellin biosynthesis gene, SD1 (SEMIDWARF1), whose loss-of-function allele catapulted the rice Green Revolution, as being responsible for submergence-induced internode elongation. When submerged, plants carrying the deepwater rice–specific SD1 haplotype amplify a signaling relay in which the SD1 gene is transcriptionally activated by an ethylene-responsive transcription factor, OsEIL1a. The SD1 protein directs increased synthesis of gibberellins, largely GA4, which promote internode elongation. Evolutionary analysis shows that the deepwater rice–specific haplotype was derived from standing variation in wild rice and selected for deepwater rice cultivation in Bangladesh. |
| Author | Yamasaki, Masanori Yamaguchi, Shinjiro Ebana, Kaworu Wu, Jianzhong Sakakibara, Hitoshi Ohme-Takagi, Masaru Ashikari, Motoyuki Tamiya, Gen Nakamori, Masanari Adachi, Keita Mashiguchi, Kiyoshi Nishitani, Kazuhiko Mitsuda, Nobutaka Furuta, Tomoyuki Mochizuki, Toshihiro Yokoyama, Ryusuke Gamuyao, Rico Seto, Yoshiya Yanagisawa, Shuichi Mori, Yoshinao Wang, Diane R. McCouch, Susan R. Kuroha, Takeshi Nagai, Keisuke Minami, Anzu Kojima, Mikiko Kitaoka, Takuya |
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givenname: Masanari surname: Nakamori fullname: Nakamori, Masanari organization: Bioscience and Biotechnology Center, Nagoya University, Aichi 464-8601, Japan – sequence: 7 givenname: Takuya surname: Kitaoka fullname: Kitaoka, Takuya organization: Bioscience and Biotechnology Center, Nagoya University, Aichi 464-8601, Japan – sequence: 8 givenname: Keita surname: Adachi fullname: Adachi, Keita organization: Bioscience and Biotechnology Center, Nagoya University, Aichi 464-8601, Japan – sequence: 9 givenname: Anzu surname: Minami fullname: Minami, Anzu organization: Bioscience and Biotechnology Center, Nagoya University, Aichi 464-8601, Japan – sequence: 10 givenname: Yoshinao surname: Mori fullname: Mori, Yoshinao organization: Bioscience and Biotechnology Center, Nagoya University, Aichi 464-8601, Japan – sequence: 11 givenname: Kiyoshi orcidid: 0000-0002-7234-887X surname: Mashiguchi fullname: Mashiguchi, Kiyoshi organization: Graduate School of Life Sciences, Tohoku University, 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Science, NARO, Ibaraki 305-8518, Japan – sequence: 17 givenname: Kaworu surname: Ebana fullname: Ebana, Kaworu organization: Genetic Resources Center, NARO, Ibaraki 305-8518, Japan – sequence: 18 givenname: Nobutaka surname: Mitsuda fullname: Mitsuda, Nobutaka organization: Bioproduction Research Institute, AIST, Ibaraki 305-8566, Japan – sequence: 19 givenname: Masaru surname: Ohme-Takagi fullname: Ohme-Takagi, Masaru organization: Bioproduction Research Institute, AIST, Ibaraki 305-8566, Japan., Graduate School of Science and Engineering, Saitama University, Saitama 338-8570, Japan – sequence: 20 givenname: Shuichi orcidid: 0000-0002-3758-5933 surname: Yanagisawa fullname: Yanagisawa, Shuichi organization: Biotechnology Research Center, The University of Tokyo, Tokyo 113-8657, Japan – sequence: 21 givenname: Masanori orcidid: 0000-0001-7759-3965 surname: Yamasaki fullname: Yamasaki, Masanori organization: Graduate School of Agricultural Science, Kobe University, Hyogo 675-2103, Japan – sequence: 22 givenname: Ryusuke surname: Yokoyama fullname: Yokoyama, Ryusuke organization: Graduate School of Life Sciences, Tohoku University, Miyagi 890-8577, Japan – sequence: 23 givenname: Kazuhiko surname: Nishitani fullname: Nishitani, Kazuhiko organization: Graduate School of Life Sciences, Tohoku University, Miyagi 890-8577, Japan – sequence: 24 givenname: Toshihiro orcidid: 0000-0002-7084-6584 surname: Mochizuki fullname: Mochizuki, Toshihiro organization: Faculty of Agriculture, Kyushu University, Fukuoka 812-8581, Japan – sequence: 25 givenname: Gen orcidid: 0000-0002-0597-415X surname: Tamiya fullname: Tamiya, Gen organization: Tohoku Medical Megabank Organization, Tohoku University, Miyagi 980-8575, Japan., RIKEN Center for Advanced Intelligence Project, Tokyo 103-0027, Japan – sequence: 26 givenname: Susan R. orcidid: 0000-0001-9246-3106 surname: McCouch fullname: McCouch, Susan R. organization: Plant Breeding and Genetics, Cornell University, Ithaca, NY 14853, USA – sequence: 27 givenname: Motoyuki orcidid: 0000-0002-8945-2366 surname: Ashikari fullname: Ashikari, Motoyuki organization: Bioscience and Biotechnology Center, Nagoya University, Aichi 464-8601, Japan |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/30002253$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
| Copyright | Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works |
| Copyright_xml | – notice: Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. – notice: Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works |
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| DOI | 10.1126/science.aat1577 |
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| Snippet | Deepwater rice varieties grow taller when flooded, in a growth response driven by the plant hormones gibberellin and ethylene. This keeps the leaves above the... Most plants do poorly when flooded. Certain rice varieties, known as deepwater rice, survive periodic flooding and consequent oxygen deficiency by activating... How rice defeats the floodwatersDeepwater rice varieties grow taller when flooded, in a growth response driven by the plant hormones gibberellin and ethylene.... |
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| SubjectTerms | Adaptation Biosynthesis Cultivation Elongation Ethylene Flooding Floods Floodwater Genetic diversity Gibberellins Grain cultivation Green revolution Haplotypes Hormones Monsoons Oryza Phenotypes Plant hormones Protein biosynthesis Proteins Rice Signaling Submergence Transcription factors |
| Title | Ethylene-gibberellin signaling underlies adaptation of rice to periodic flooding |
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