Author
Listed:
- Cunmin Qu
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Meichen Zhu
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Ran Hu
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Yongchao Niu
(The Chinese University of Hong Kong)
- Si Chen
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Huiyan Zhao
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Chengxiang Li
(National University of Singapore)
- Zhen Wang
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Nengwen Yin
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Fujun Sun
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Zhiyou Chen
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Shulin Shen
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Guoxia Shang
(Qinghai University)
- Yan Zhou
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Xingying Yan
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Lijuan Wei
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Liezhao Liu
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Bin Yi
(Huazhong Agricultural University)
- Jinmin Lian
(Biozeron Shenzhen, Inc)
- Jiang Li
(Biozeron Shenzhen, Inc)
- Zhanglin Tang
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Ying Liang
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Xinfu Xu
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Rui Wang
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Jiaming Yin
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Huafang Wan
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Hai Du
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Wei Qian
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Yourong Chai
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Qingyuan Zhou
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Yajun He
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Silin Zhong
(The Chinese University of Hong Kong)
- Xiao Qiu
(University of Saskatchewan)
- Hao Yu
(National University of Singapore
National University of Singapore)
- Hon-Ming Lam
(The Chinese University of Hong Kong)
- Kun Lu
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
- Fuyou Fu
(Saskatoon Research Centre)
- Jiana Li
(Southwest University
Integrative Science Center of Germplasm Creation in Western China (CHONGQING) Science City and Southwest University
Southwest University)
Abstract
Yellow-seed trait is a desirable breeding characteristic of rapeseed (Brassica napus) that could greatly improve seed oil yield and quality. However, the underlying mechanisms controlling this phenotype in B. napus plants are difficult to discern because of their complexity. Here, we assemble high-quality genomes of yellow-seeded (GH06) and black-seeded (ZY821). Combining in-depth fine mapping of a quantitative trait locus (QTL) for seed color with other omics data reveal BnA09MYB47a, encoding an R2R3-MYB-type transcription factor, as the causal gene of a major QTL controlling the yellow-seed trait. Functional studies show that sequence variation of BnA09MYB47a underlies the functional divergence between the yellow- and black-seeded B. napus. The black-seed allele BnA09MYB47aZY821, but not the yellow-seed allele BnA09MYB47aGH06, promotes flavonoid biosynthesis by directly activating the expression of BnTT18. Our discovery suggests a possible approach to breeding B. napus for improved commercial value and facilitates flavonoid biosynthesis studies in Brassica crops.
Suggested Citation
Cunmin Qu & Meichen Zhu & Ran Hu & Yongchao Niu & Si Chen & Huiyan Zhao & Chengxiang Li & Zhen Wang & Nengwen Yin & Fujun Sun & Zhiyou Chen & Shulin Shen & Guoxia Shang & Yan Zhou & Xingying Yan & Lij, 2023.
"Comparative genomic analyses reveal the genetic basis of the yellow-seed trait in Brassica napus,"
Nature Communications, Nature, vol. 14(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40838-1
DOI: 10.1038/s41467-023-40838-1
Download full text from publisher
References listed on IDEAS
- Yonghui Wu & Prasanna R Bhat & Timothy J Close & Stefano Lonardi, 2008.
"Efficient and Accurate Construction of Genetic Linkage Maps from the Minimum Spanning Tree of a Graph,"
PLOS Genetics, Public Library of Science, vol. 4(10), pages 1-11, October.
- Mary Galli & Arjun Khakhar & Zefu Lu & Zongliang Chen & Sidharth Sen & Trupti Joshi & Jennifer L. Nemhauser & Robert J. Schmitz & Andrea Gallavotti, 2018.
"The DNA binding landscape of the maize AUXIN RESPONSE FACTOR family,"
Nature Communications, Nature, vol. 9(1), pages 1-14, December.
Full references (including those not matched with items on IDEAS)
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