A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance

Grain size is a key component trait of grain weight and yield. Numbers of quantitative trait loci (QTLs) have been identified in various bioprocesses, but there is still little known about how metabolism-related QTLs influence grain size and yield. The current study report GS3.1, a QTL that regulate...

Descripción completa

Detalles Bibliográficos
Autores principales: Zhang, Yi-Min, Yu, Hong-Xiao, Ye, Wang-Wei, Shan, Jun-Xiang, Dong, Nai-Qian, Guo, Tao, Kan, Yi, Xiang, You-Huang, Zhang, Hai, Yang, Yi-Bing, Li, Ya-Chao, Zhao, Huai-Yu, Lu, Zi-Qi, Guo, Shuang-Qin, Lei, Jie-Jie, Liao, Ben, Mu, Xiao-Rui, Cao, Ying-Jie, Yu, Jia-Jun, Lin, Hong-Xuan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8497587/
https://www.ncbi.nlm.nih.gov/pubmed/34620988
http://dx.doi.org/10.1038/s42003-021-02686-x
_version_ 1784579988573388800
author Zhang, Yi-Min
Yu, Hong-Xiao
Ye, Wang-Wei
Shan, Jun-Xiang
Dong, Nai-Qian
Guo, Tao
Kan, Yi
Xiang, You-Huang
Zhang, Hai
Yang, Yi-Bing
Li, Ya-Chao
Zhao, Huai-Yu
Lu, Zi-Qi
Guo, Shuang-Qin
Lei, Jie-Jie
Liao, Ben
Mu, Xiao-Rui
Cao, Ying-Jie
Yu, Jia-Jun
Lin, Hong-Xuan
author_facet Zhang, Yi-Min
Yu, Hong-Xiao
Ye, Wang-Wei
Shan, Jun-Xiang
Dong, Nai-Qian
Guo, Tao
Kan, Yi
Xiang, You-Huang
Zhang, Hai
Yang, Yi-Bing
Li, Ya-Chao
Zhao, Huai-Yu
Lu, Zi-Qi
Guo, Shuang-Qin
Lei, Jie-Jie
Liao, Ben
Mu, Xiao-Rui
Cao, Ying-Jie
Yu, Jia-Jun
Lin, Hong-Xuan
author_sort Zhang, Yi-Min
collection PubMed
description Grain size is a key component trait of grain weight and yield. Numbers of quantitative trait loci (QTLs) have been identified in various bioprocesses, but there is still little known about how metabolism-related QTLs influence grain size and yield. The current study report GS3.1, a QTL that regulates rice grain size via metabolic flux allocation between two branches of phenylpropanoid metabolism. GS3.1 encodes a MATE (multidrug and toxic compounds extrusion) transporter that regulates grain size by directing the transport of p-coumaric acid from the p-coumaric acid biosynthetic metabolon to the flavonoid biosynthetic metabolon. A natural allele of GS3.1 was identified from an African rice with enlarged grains, reduced flavonoid content and increased lignin content in the panicles. Notably, the natural allele of GS3.1 caused no alterations in other tissues and did not affect stress tolerance, revealing an ideal candidate for breeding efforts. This study uncovers insights into the regulation of grain size though metabolic-flux distribution. In this way, it supports a strategy of enhancing crop yield without introducing deleterious side effects on stress tolerance mechanisms.
format Online
Article
Text
id pubmed-8497587
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-84975872021-10-22 A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance Zhang, Yi-Min Yu, Hong-Xiao Ye, Wang-Wei Shan, Jun-Xiang Dong, Nai-Qian Guo, Tao Kan, Yi Xiang, You-Huang Zhang, Hai Yang, Yi-Bing Li, Ya-Chao Zhao, Huai-Yu Lu, Zi-Qi Guo, Shuang-Qin Lei, Jie-Jie Liao, Ben Mu, Xiao-Rui Cao, Ying-Jie Yu, Jia-Jun Lin, Hong-Xuan Commun Biol Article Grain size is a key component trait of grain weight and yield. Numbers of quantitative trait loci (QTLs) have been identified in various bioprocesses, but there is still little known about how metabolism-related QTLs influence grain size and yield. The current study report GS3.1, a QTL that regulates rice grain size via metabolic flux allocation between two branches of phenylpropanoid metabolism. GS3.1 encodes a MATE (multidrug and toxic compounds extrusion) transporter that regulates grain size by directing the transport of p-coumaric acid from the p-coumaric acid biosynthetic metabolon to the flavonoid biosynthetic metabolon. A natural allele of GS3.1 was identified from an African rice with enlarged grains, reduced flavonoid content and increased lignin content in the panicles. Notably, the natural allele of GS3.1 caused no alterations in other tissues and did not affect stress tolerance, revealing an ideal candidate for breeding efforts. This study uncovers insights into the regulation of grain size though metabolic-flux distribution. In this way, it supports a strategy of enhancing crop yield without introducing deleterious side effects on stress tolerance mechanisms. Nature Publishing Group UK 2021-10-07 /pmc/articles/PMC8497587/ /pubmed/34620988 http://dx.doi.org/10.1038/s42003-021-02686-x Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Zhang, Yi-Min
Yu, Hong-Xiao
Ye, Wang-Wei
Shan, Jun-Xiang
Dong, Nai-Qian
Guo, Tao
Kan, Yi
Xiang, You-Huang
Zhang, Hai
Yang, Yi-Bing
Li, Ya-Chao
Zhao, Huai-Yu
Lu, Zi-Qi
Guo, Shuang-Qin
Lei, Jie-Jie
Liao, Ben
Mu, Xiao-Rui
Cao, Ying-Jie
Yu, Jia-Jun
Lin, Hong-Xuan
A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance
title A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance
title_full A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance
title_fullStr A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance
title_full_unstemmed A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance
title_short A rice QTL GS3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance
title_sort rice qtl gs3.1 regulates grain size through metabolic-flux distribution between flavonoid and lignin metabolons without affecting stress tolerance
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8497587/
https://www.ncbi.nlm.nih.gov/pubmed/34620988
http://dx.doi.org/10.1038/s42003-021-02686-x
work_keys_str_mv AT zhangyimin ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT yuhongxiao ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT yewangwei ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT shanjunxiang ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT dongnaiqian ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT guotao ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT kanyi ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT xiangyouhuang ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT zhanghai ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT yangyibing ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT liyachao ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT zhaohuaiyu ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT luziqi ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT guoshuangqin ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT leijiejie ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT liaoben ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT muxiaorui ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT caoyingjie ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT yujiajun ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT linhongxuan ariceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT zhangyimin riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT yuhongxiao riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT yewangwei riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT shanjunxiang riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT dongnaiqian riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT guotao riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT kanyi riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT xiangyouhuang riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT zhanghai riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT yangyibing riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT liyachao riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT zhaohuaiyu riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT luziqi riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT guoshuangqin riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT leijiejie riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT liaoben riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT muxiaorui riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT caoyingjie riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT yujiajun riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance
AT linhongxuan riceqtlgs31regulatesgrainsizethroughmetabolicfluxdistributionbetweenflavonoidandligninmetabolonswithoutaffectingstresstolerance

Ejemplares similares