文献类型: 外文期刊
第一作者: Yuan, Ming
作者: Yuan, Ming;Sun, Haoyue;Sun, Xu;Yu, Zhiyuan;Dong, Sheng;Zhang, Jie;Hu, Bo;Li, Wen-Xia;Ning, Hailong;Lu, Wencheng
作者机构:
关键词: soybean; number of four-seed pods; quantitative trait nucleotide; candidate genes; breeding schemes
期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:4.8; 五年影响因子:5.7 )
ISSN: 1664-462X
年卷期: 2025 年 16 卷
页码:
收录情况: SCI
摘要: The number of four-seed pods (NFSP) in soybean is an important yield trait and a quantitative trait regulated by multiple genes. Mapping quantitative trait nucleotide (QTN), mining major genes, and screening excellent breeding schemes for NFSP are of great significance for breeding high-yielding soybean varieties. In this study, a germplasm population (GP) containing 455 soybean varieties was planted in five environments to investigate NFSP. Single-nucleotide polymorphism (SNP) genotype data were obtained based on the Axiom_SoyaSNP 180K chip, and a genome-wide association study (GWAS) was used to locate QTNs, which were used to predict candidate genes and simulate breeding. The results showed that there was genetic variation in NFSP and different gene expression in various environments. The broad-sense heritability of NFSP over multiple environments was 72.7%. A total of 89 QTNs correlated with the number of four pods were identified on 20 chromosomes, including 34 stable QTNs repeatedly detected by multiple methods or in multiple environments and four QTNs with an additive by environment interaction effect. In the decay regions of 34 stable QTNs, three genes related to NFSP in soybean were screened and verified by haplotype analysis, namely, Glyma.13G105400, Glyma.04G063700, and Glyma.04G063100. Multiple regression analysis of 89 QTNs on NFSP was used to establish molecular-assisted selection models for five environments, which could explain 44.82%-55.06% of the phenotypic variation in NFSP. Based on this model, 153 breeding schemes were selected for five environments, which could achieve the breeding goals of NFSP over 43, 43, 25, 31, and 40 under 21AC, 21XY, 23WD, 23QQHE, and 23AC environments, respectively. These results laid the foundation for understanding the genetic mechanism of pod formation in soybean and molecular breeding of high-yielding varieties.
分类号:
- 相关文献
作者其他论文 更多>>
-
Comfort temperature assessment for honeybee colonies based on long-term monitoring
作者:Lu, Yuntao;Wu, Wei;Zhang, Jie;Li, Shijuan;Liu, Shengping;Hong, Wei;Hong, Wei
关键词:Extreme weather; Comfort assessment model; Precision beekeeping
-
A LTR retrotransposon insertion leads to leafy phenotype in maize by elevating ZmOM66 expression
作者:Du, Xuemei;Chen, Yan;Gao, Xinpeng;Wang, Xiaoli;Cui, Yu;Liu, Yunjun;Fu, Junjie;Wang, Guoying;Du, Xuemei;Xu, Zhuoyi;Lu, Jiawen;Zhang, Jie;He, Cheng;Huang, Liying;Guo, Wei;Cui, Yangbo;Ai, Junmin;Li, Li;Gu, Riliang;Wang, Jianhua
关键词:
-
Toxicokinetics and tissue dynamics approaches to evaluate the accumulation and elimination of cadmium in black soldier fly larvae
作者:Zhang, Jie;Tang, Chunyan;Shi, Zhihui;Wan, Yujia;Qiu, Huan;Feng, Rui;Zhu, Fen;Xu, Xuelian;Li, Fengfeng
关键词:Toxicokinetic; Cadmium; Tissue distribution; Midgut; Uptake; Elimination
-
Advances of functional nucleic acids based on specific recognition:A review
作者:Liu, Beibei;Chen, Ge;Zhai, Rongqi;Liu, Guangyang;Xu, Xiaomin;Zhang, Yanguo;Li, Lingyun;Xu, Donghui;Liu, Beibei;Zhang, Jie;Abd El-Aty, A. M.;Abd El-Aty, A. M.
关键词:Functional nucleic acids; Specific recognition; Application
-
A natural variant of NON-RIPENING promotes fruit ripening in watermelon
作者:Wang, Jinfang;Yu, Yongtao;Guo, Shaogui;Zhang, Jie;Ren, Yi;Tian, Shouwei;Li, Maoying;Liao, Shengjin;Gong, Guoyi;Zhang, Haiying;Xu, Yong
关键词:
-
Identification and functional analysis of Wall-Associated Kinase genes in Nicotiana tabacum
作者:Li, Ling;Li, Jintao;Zhang, Zhiqiang;Miao, Yangfan;Li, Wei;Cao, Linggai;Liu, Jie;Zhang, Jie;Wang, Rengang;Yu, Shizhou;Zhang, Zhiqiang;Ren, Zhongying;Li, Wei
关键词:wall-associated kinase; tobacco; evolutionary; expression analysis; stress response
-
The analysis of the genetic loci affecting phenotypic plasticity of soybean isoflavone content by dQTG.seq model
作者:Yang, Zhenhong;Zhan, Yuhang;Zhu, Yina;Zhu, Hanhan;Li, Haiyan;Teng, Weili;Li, Yongguang;Zhao, Xue;Wang, Yuhe;Han, Yingpeng;Zhou, Changjun;Yuan, Ming;Liu, Miao
关键词:
