Phenotype and Genotype Interaction Underlying Distributive Characteristic for Awn Development in Rice
As a wild ancestor of cultivated rice, is domesticated into cultivated rice , many agricultural traits are newly created or disappear. In particular, in wild rice, awn protects from predators and is easily blown by the wind and used as a means of propagation. However, awns gradually disappeared as t...
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Published in | Plants (Basel) Vol. 11; no. 7; p. 851 |
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Abstract | As a wild ancestor of cultivated rice,
is domesticated into cultivated rice
, many agricultural traits are newly created or disappear. In particular, in wild rice, awn protects from predators and is easily blown by the wind and used as a means of propagation. However, awns gradually disappeared as they were breeding from wild rice to cultivated rice. Since awn development is disadvantageous to rice yield, it is important to understand the genetic basis related to awn development. In addition, characterization of the genes associated with awn development is helpful in analyzing the genetic relationships of rice from ancient times to the present for the regulatory mechanisms of awn formation. QTL analysis identified RM14330-RM218 on chromosome 3 using a 120 Cheongcheong/Nagdong double haploid population. Through screening of genes related to awn development in RM-14330-RM218, it is indicated that
is a causal gene that can be involved in awn development.
transcription level is maintained high in long awn and less yield populations during the panicle formation stage, the period during awn development. Moreover, the sequence of
has high homology with the drooping protein leaf. This study provides a new resource for phylogenetic research of rice and exploration of awn development. |
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AbstractList | As a wild ancestor of cultivated rice,
is domesticated into cultivated rice
, many agricultural traits are newly created or disappear. In particular, in wild rice, awn protects from predators and is easily blown by the wind and used as a means of propagation. However, awns gradually disappeared as they were breeding from wild rice to cultivated rice. Since awn development is disadvantageous to rice yield, it is important to understand the genetic basis related to awn development. In addition, characterization of the genes associated with awn development is helpful in analyzing the genetic relationships of rice from ancient times to the present for the regulatory mechanisms of awn formation. QTL analysis identified RM14330-RM218 on chromosome 3 using a 120 Cheongcheong/Nagdong double haploid population. Through screening of genes related to awn development in RM-14330-RM218, it is indicated that
is a causal gene that can be involved in awn development.
transcription level is maintained high in long awn and less yield populations during the panicle formation stage, the period during awn development. Moreover, the sequence of
has high homology with the drooping protein leaf. This study provides a new resource for phylogenetic research of rice and exploration of awn development. As a wild ancestor of cultivated rice, Oryza rufipogon is domesticated into cultivated rice Oryza sativa, many agricultural traits are newly created or disappear. In particular, in wild rice, awn protects from predators and is easily blown by the wind and used as a means of propagation. However, awns gradually disappeared as they were breeding from wild rice to cultivated rice. Since awn development is disadvantageous to rice yield, it is important to understand the genetic basis related to awn development. In addition, characterization of the genes associated with awn development is helpful in analyzing the genetic relationships of rice from ancient times to the present for the regulatory mechanisms of awn formation. QTL analysis identified RM14330-RM218 on chromosome 3 using a 120 Cheongcheong/Nagdong double haploid population. Through screening of genes related to awn development in RM-14330-RM218, it is indicated that OsDRPq3 is a causal gene that can be involved in awn development. OsDRPq3 transcription level is maintained high in long awn and less yield populations during the panicle formation stage, the period during awn development. Moreover, the sequence of OsDRPq3 has high homology with the drooping protein leaf. This study provides a new resource for phylogenetic research of rice and exploration of awn development. As a wild ancestor of cultivated rice, Oryza rufipogon is domesticated into cultivated rice Oryza sativa , many agricultural traits are newly created or disappear. In particular, in wild rice, awn protects from predators and is easily blown by the wind and used as a means of propagation. However, awns gradually disappeared as they were breeding from wild rice to cultivated rice. Since awn development is disadvantageous to rice yield, it is important to understand the genetic basis related to awn development. In addition, characterization of the genes associated with awn development is helpful in analyzing the genetic relationships of rice from ancient times to the present for the regulatory mechanisms of awn formation. QTL analysis identified RM14330-RM218 on chromosome 3 using a 120 Cheongcheong/Nagdong double haploid population. Through screening of genes related to awn development in RM-14330-RM218, it is indicated that OsDRPq3 is a causal gene that can be involved in awn development. OsDRPq3 transcription level is maintained high in long awn and less yield populations during the panicle formation stage, the period during awn development. Moreover, the sequence of OsDRPq3 has high homology with the drooping protein leaf. This study provides a new resource for phylogenetic research of rice and exploration of awn development. |
Author | Park, Jae-Ryoung Kim, Eun-Gyeong Kim, Kyung-Min Son, Ju Hyeong Jang, Yoon-Hee Yun, Byoung-Ju |
AuthorAffiliation | 2 Division of Plant Biosciences, School of Applied Biosciences, College of Agriculture and Life Sciences, Kyungpook National University, Daegu 41566, Korea; ff0319@hanmail.net (J.H.S.); dkqkxk632@naver.com (E.-G.K.); uniunnie@naver.com (Y.-H.J.) 4 Coastal Agriculture Research Institute, Kyungpook National University, Daegu 41566, Korea 3 School of Electronic and Electrical Engineering, College of IT Engineering, Kyungpook National University, 80, Daehak-ro, Buk-gu, Daegu 41566, Korea 1 Crop Breeding Division, National Institute of Crop Science, Rural Development Administration, Wanju 55365, Korea; icd0192@korea.kr |
AuthorAffiliation_xml | – name: 4 Coastal Agriculture Research Institute, Kyungpook National University, Daegu 41566, Korea – name: 1 Crop Breeding Division, National Institute of Crop Science, Rural Development Administration, Wanju 55365, Korea; icd0192@korea.kr – name: 3 School of Electronic and Electrical Engineering, College of IT Engineering, Kyungpook National University, 80, Daehak-ro, Buk-gu, Daegu 41566, Korea – name: 2 Division of Plant Biosciences, School of Applied Biosciences, College of Agriculture and Life Sciences, Kyungpook National University, Daegu 41566, Korea; ff0319@hanmail.net (J.H.S.); dkqkxk632@naver.com (E.-G.K.); uniunnie@naver.com (Y.-H.J.) |
Author_xml | – sequence: 1 givenname: Jae-Ryoung orcidid: 0000-0003-2207-5313 surname: Park fullname: Park, Jae-Ryoung organization: Division of Plant Biosciences, School of Applied Biosciences, College of Agriculture and Life Sciences, Kyungpook National University, Daegu 41566, Korea – sequence: 2 givenname: Ju Hyeong surname: Son fullname: Son, Ju Hyeong organization: Division of Plant Biosciences, School of Applied Biosciences, College of Agriculture and Life Sciences, Kyungpook National University, Daegu 41566, Korea – sequence: 3 givenname: Eun-Gyeong orcidid: 0000-0002-8532-608X surname: Kim fullname: Kim, Eun-Gyeong organization: Division of Plant Biosciences, School of Applied Biosciences, College of Agriculture and Life Sciences, Kyungpook National University, Daegu 41566, Korea – sequence: 4 givenname: Yoon-Hee surname: Jang fullname: Jang, Yoon-Hee organization: Division of Plant Biosciences, School of Applied Biosciences, College of Agriculture and Life Sciences, Kyungpook National University, Daegu 41566, Korea – sequence: 5 givenname: Byoung-Ju orcidid: 0000-0002-9898-2262 surname: Yun fullname: Yun, Byoung-Ju organization: School of Electronic and Electrical Engineering, College of IT Engineering, Kyungpook National University, 80, Daehak-ro, Buk-gu, Daegu 41566, Korea – sequence: 6 givenname: Kyung-Min orcidid: 0000-0003-4812-6297 surname: Kim fullname: Kim, Kyung-Min organization: Coastal Agriculture Research Institute, Kyungpook National University, Daegu 41566, Korea |
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Snippet | As a wild ancestor of cultivated rice,
is domesticated into cultivated rice
, many agricultural traits are newly created or disappear. In particular, in wild... As a wild ancestor of cultivated rice, Oryza rufipogon is domesticated into cultivated rice Oryza sativa, many agricultural traits are newly created or... As a wild ancestor of cultivated rice, Oryza rufipogon is domesticated into cultivated rice Oryza sativa , many agricultural traits are newly created or... |
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SubjectTerms | agricultural Agricultural production awn Barley breeding Chromosome 3 Chromosomes Cloning Crop yield Cultivation Domestication Genes Genetic relationship Genetic screening Genotypes Grain cultivation Homology Oryza rufipogon Oryza sativa Phenotypes Phylogenetics Phylogeny Plant breeding Polymorphism Population Predators QTL Quantitative trait loci Regulatory mechanisms (biology) Rice Seeds Transcription |
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Title | Phenotype and Genotype Interaction Underlying Distributive Characteristic for Awn Development in Rice |
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