Narrow lpa1 Metaxylems Enhance Drought Tolerance and Optimize Water Use for Grain Filling in Dwarf Rice
Rice cultivation needs extensive amounts of water. Moreover, increased frequency of droughts and water scarcity has become a global concern for rice cultivation. Hence, optimization of water use is crucial for sustainable agriculture. Here, we characterized ( ) in vasculature development, water tran...
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Published in | Frontiers in plant science Vol. 13; p. 894545 |
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Main Authors | , , , , , , , , , , , , , , |
Format | Journal Article |
Language | English |
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10.05.2022
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Abstract | Rice cultivation needs extensive amounts of water. Moreover, increased frequency of droughts and water scarcity has become a global concern for rice cultivation. Hence, optimization of water use is crucial for sustainable agriculture. Here, we characterized
(
) in vasculature development, water transport, drought resistance, and grain yield. We performed genetic combination of
with semi-dwarf mutant to offer the optimum rice architecture for more efficient water use.
expressed in pre-vascular cells of leaf primordia regulates genes associated with carbohydrate metabolism and cell enlargement. Thus, it plays a role in metaxylem enlargement of the aerial organs. Narrow metaxylem of
exhibit leaves curling on sunny day and convey drought tolerance but reduce grain yield in mature plants. However, the genetic combination of
with semi-dwarf mutant (
or
) offer optimal water supply and drought resistance without impacting grain-filling rates. Our results show that water use, and transports can be genetically controlled by optimizing metaxylem vessel size and plant height, which may be utilized for enhancing drought tolerance and offers the potential solution to face the more frequent harsh climate condition in the future. |
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AbstractList | Rice cultivation needs extensive amounts of water. Moreover, increased frequency of droughts and water scarcity has become a global concern for rice cultivation. Hence, optimization of water use is crucial for sustainable agriculture. Here, we characterized Loose Plant Architecture 1 (LPA1) in vasculature development, water transport, drought resistance, and grain yield. We performed genetic combination of lpa1 with semi-dwarf mutant to offer the optimum rice architecture for more efficient water use. LPA1 expressed in pre-vascular cells of leaf primordia regulates genes associated with carbohydrate metabolism and cell enlargement. Thus, it plays a role in metaxylem enlargement of the aerial organs. Narrow metaxylem of lpa1 exhibit leaves curling on sunny day and convey drought tolerance but reduce grain yield in mature plants. However, the genetic combination of lpa1 with semi-dwarf mutant (dep1-ko or d2) offer optimal water supply and drought resistance without impacting grain-filling rates. Our results show that water use, and transports can be genetically controlled by optimizing metaxylem vessel size and plant height, which may be utilized for enhancing drought tolerance and offers the potential solution to face the more frequent harsh climate condition in the future. Rice cultivation needs extensive amounts of water. Moreover, increased frequency of droughts and water scarcity has become a global concern for rice cultivation. Hence, optimization of water use is crucial for sustainable agriculture. Here, we characterized Loose Plant Architecture 1 ( LPA1 ) in vasculature development, water transport, drought resistance, and grain yield. We performed genetic combination of lpa1 with semi-dwarf mutant to offer the optimum rice architecture for more efficient water use. LPA1 expressed in pre-vascular cells of leaf primordia regulates genes associated with carbohydrate metabolism and cell enlargement. Thus, it plays a role in metaxylem enlargement of the aerial organs. Narrow metaxylem of lpa1 exhibit leaves curling on sunny day and convey drought tolerance but reduce grain yield in mature plants. However, the genetic combination of lpa1 with semi-dwarf mutant ( dep1-ko or d2 ) offer optimal water supply and drought resistance without impacting grain-filling rates. Our results show that water use, and transports can be genetically controlled by optimizing metaxylem vessel size and plant height, which may be utilized for enhancing drought tolerance and offers the potential solution to face the more frequent harsh climate condition in the future. Rice cultivation needs extensive amounts of water. Moreover, increased frequency of droughts and water scarcity has become a global concern for rice cultivation. Hence, optimization of water use is crucial for sustainable agriculture. Here, we characterized ( ) in vasculature development, water transport, drought resistance, and grain yield. We performed genetic combination of with semi-dwarf mutant to offer the optimum rice architecture for more efficient water use. expressed in pre-vascular cells of leaf primordia regulates genes associated with carbohydrate metabolism and cell enlargement. Thus, it plays a role in metaxylem enlargement of the aerial organs. Narrow metaxylem of exhibit leaves curling on sunny day and convey drought tolerance but reduce grain yield in mature plants. However, the genetic combination of with semi-dwarf mutant ( or ) offer optimal water supply and drought resistance without impacting grain-filling rates. Our results show that water use, and transports can be genetically controlled by optimizing metaxylem vessel size and plant height, which may be utilized for enhancing drought tolerance and offers the potential solution to face the more frequent harsh climate condition in the future. |
Author | Park, Soon Ju Jeong, Dong-Hoon Choi, Eun-Young Yoon, Seoa Heo, Jung Kim, Sung Hoon Lee, Young Koung Priatama, Ryza A Rajendran, Sujeevan Han, Chang-Deok Choo, Young-Kug Lee, Yeon Hee Demura, Taku Kim, Chul Min Bae, Jong Hyang |
AuthorAffiliation | 5 Department of Horticulture Industry, Wonkwang University , Iksan , South Korea 2 Institute of Plasma Technology, Korea Institute of Fusion Energy , Gunsan , South Korea 3 Division of Biological Sciences and Research Institute for Basic Science, Wonkwang University , Iksan , South Korea 4 Environmental Exposure & Toxicology Research Center, Korea Institute of Toxicology , Jinju , South Korea 9 Department of Agricultural Science, Korea National Open University , Seoul , South Korea 8 Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology , Ikoma , Japan 6 Department of Life Science and Multidisciplinary Genome Institute, Hallym University , Chuncheon , South Korea 1 Division of Applied Life Science (BK21 Program), Plant Molecular Biology and Biotechnology Research Center (PMBBRC), Gyeongsang National University , Jinju , South Korea 7 National Institute of Agricultural Biotechnology , Suwon , South Korea |
AuthorAffiliation_xml | – name: 4 Environmental Exposure & Toxicology Research Center, Korea Institute of Toxicology , Jinju , South Korea – name: 7 National Institute of Agricultural Biotechnology , Suwon , South Korea – name: 5 Department of Horticulture Industry, Wonkwang University , Iksan , South Korea – name: 9 Department of Agricultural Science, Korea National Open University , Seoul , South Korea – name: 6 Department of Life Science and Multidisciplinary Genome Institute, Hallym University , Chuncheon , South Korea – name: 8 Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology , Ikoma , Japan – name: 2 Institute of Plasma Technology, Korea Institute of Fusion Energy , Gunsan , South Korea – name: 1 Division of Applied Life Science (BK21 Program), Plant Molecular Biology and Biotechnology Research Center (PMBBRC), Gyeongsang National University , Jinju , South Korea – name: 3 Division of Biological Sciences and Research Institute for Basic Science, Wonkwang University , Iksan , South Korea |
Author_xml | – sequence: 1 givenname: Ryza A surname: Priatama fullname: Priatama, Ryza A organization: Institute of Plasma Technology, Korea Institute of Fusion Energy, Gunsan, South Korea – sequence: 2 givenname: Jung surname: Heo fullname: Heo, Jung organization: Division of Biological Sciences and Research Institute for Basic Science, Wonkwang University, Iksan, South Korea – sequence: 3 givenname: Sung Hoon surname: Kim fullname: Kim, Sung Hoon organization: Environmental Exposure & Toxicology Research Center, Korea Institute of Toxicology, Jinju, South Korea – sequence: 4 givenname: Sujeevan surname: Rajendran fullname: Rajendran, Sujeevan organization: Division of Biological Sciences and Research Institute for Basic Science, Wonkwang University, Iksan, South Korea – sequence: 5 givenname: Seoa surname: Yoon fullname: Yoon, Seoa organization: Department of Horticulture Industry, Wonkwang University, Iksan, South Korea – sequence: 6 givenname: Dong-Hoon surname: Jeong fullname: Jeong, Dong-Hoon organization: Department of Life Science and Multidisciplinary Genome Institute, Hallym University, Chuncheon, South Korea – sequence: 7 givenname: Young-Kug surname: Choo fullname: Choo, Young-Kug organization: Division of Biological Sciences and Research Institute for Basic Science, Wonkwang University, Iksan, South Korea – sequence: 8 givenname: Jong Hyang surname: Bae fullname: Bae, Jong Hyang organization: Department of Horticulture Industry, Wonkwang University, Iksan, South Korea – sequence: 9 givenname: Chul Min surname: Kim fullname: Kim, Chul Min organization: Department of Horticulture Industry, Wonkwang University, Iksan, South Korea – sequence: 10 givenname: Yeon Hee surname: Lee fullname: Lee, Yeon Hee organization: National Institute of Agricultural Biotechnology, Suwon, South Korea – sequence: 11 givenname: Taku surname: Demura fullname: Demura, Taku organization: Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology, Ikoma, Japan – sequence: 12 givenname: Young Koung surname: Lee fullname: Lee, Young Koung organization: Institute of Plasma Technology, Korea Institute of Fusion Energy, Gunsan, South Korea – sequence: 13 givenname: Eun-Young surname: Choi fullname: Choi, Eun-Young organization: Department of Agricultural Science, Korea National Open University, Seoul, South Korea – sequence: 14 givenname: Chang-Deok surname: Han fullname: Han, Chang-Deok organization: Division of Applied Life Science (BK21 Program), Plant Molecular Biology and Biotechnology Research Center (PMBBRC), Gyeongsang National University, Jinju, South Korea – sequence: 15 givenname: Soon Ju surname: Park fullname: Park, Soon Ju organization: Division of Biological Sciences and Research Institute for Basic Science, Wonkwang University, Iksan, South Korea |
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Copyright | Copyright © 2022 Priatama, Heo, Kim, Rajendran, Yoon, Jeong, Choo, Bae, Kim, Lee, Demura, Lee, Choi, Han and Park. Copyright © 2022 Priatama, Heo, Kim, Rajendran, Yoon, Jeong, Choo, Bae, Kim, Lee, Demura, Lee, Choi, Han and Park. 2022 Priatama, Heo, Kim, Rajendran, Yoon, Jeong, Choo, Bae, Kim, Lee, Demura, Lee, Choi, Han and Park |
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Keywords | metaxylem drought tolerance rice semi-dwarf rice grain filling |
Language | English |
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Title | Narrow lpa1 Metaxylems Enhance Drought Tolerance and Optimize Water Use for Grain Filling in Dwarf Rice |
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