Candidate gene identification and marker development for seed coat peeling rate in peanut (Arachis Hypogaea L.)
文献类型: 外文期刊
作者: Liu, Hongfei 1 ; Sun, Ziqi 1 ; Qi, Feiyan 1 ; Wang, Xiao 1 ; Zhang, Meng 1 ; Wang, Juan 1 ; Wang, Xiaobo 1 ; Mo, Ziqiang 1 ; Zhao, Mingbo 1 ; Zhi, Chenyang 1 ; Wang, Mengmeng 1 ; Zhou, Zhiyuan 1 ; Xu, Linhong 1 ; Dong, Wenzhao 1 ; Zheng, Zheng 1 ; Zhang, Xinyou 1 ;
作者机构: 1.Henan Acad Agr Sci, Inst Crop Mol Breeding,Key Lab Oil Crops Huang Hua, State Ind Innovat Ctr Biol Breeding,Minist Agr, Shennong Lab,Henan Prov Key Lab Oil Crops Improvem, Zhengzhou 450002, Peoples R China
关键词: Peanut; Seed coat peeling rate (SCPR); Quantitative trait locus (QTL); Genome-wide association study (GWAS); Co-localize; Candidate gene; Molecular marker
期刊名称:BMC PLANT BIOLOGY ( 影响因子:4.8; 五年影响因子:5.4 )
ISSN: 1471-2229
年卷期: 2025 年 25 卷 1 期
页码:
收录情况: SCI
摘要: BackgroundCultivated peanut (Arachis hypogaea L.) is an important economic and oilseed crop in China. The seed coat plays a crucial role in resisting pests and diseases, and seed coat peeling rate (SCPR) is a key factor influencing the efficiency and quality of mechanical shelling. Given the high kernel breakage rate and susceptibility to Aspergillus flavus infection during mechanical shelling, gene mining for SCPR holds significant theoretical and practical value. However, the genetic basis of SCPR has rarely been reported.ResultsThis study represented the first identification of genetic loci associated with SCPR in peanut. A genome-wide association study (GWAS) was conducted on a natural population comprising 353 peanut accessions, while quantitative trait locus (QTL) mapping was performed using a recombinant inbred line (RIL) population of 521 lines derived from YZ9102 and WT09-0023. GWAS analysis revealed a significantly associated genomic region at the distal end of chromosome 5, encompassing 111 significant single nucleotide polymorphisms (SNPs), among which six SNPs were consistently detected across two environments and exhibited strong linkage with SCPR. QTL mapping identified five QTLs associated with SCPR, located on chromosomes A04, A05, A09, A10, and A18, with LOD scores ranging from 3.06 to 5.54. Notably, the co-localization of GWAS signals and QTL mapping at the distal end of chromosome 5 suggests that qSCPRA05 represents a stable and major QTL governing SCPR in peanut, spanning a 385.66 kb physical interval (Arahy.05:114,895,772 - 115,281,432). Within this region, three linkage disequilibrium (LD) blocks were detected, harboring 33 candidate genes. Among them, Arahy.0C6ZNN, which encodes laccase, was identified as the most likely candidate gene through integration of sequence variation analysis between the RIL parental lines and functional gene annotation. Furthermore, a functional marker A05.114993389 was developed and validated in both the natural and RIL populations, providing a valuable genomic resource for marker-assisted selection (MAS) in peanut breeding programs.ConclusionsThis study represented the gene mining of SCPR in peanut, providing novel insights into its genetic basis and laying a foundation for elucidating the underlying regulatory mechanisms. The identification of a major QTL qSCPRA05 and the candidate gene Arahy.0C6ZNN may offer valuable targets for further functional research. Moreover, the development of molecular markers linked to SCPR presents a promising tool for marker-assisted selection (MAS), facilitating genetic improvement and accelerating breeding efforts for enhanced seed coat integrity in peanut.
- 相关文献
作者其他论文 更多>>
-
AhFAD3-A01 enhances α-linolenic acid content in Arabidopsis and peanut
作者:Li, Xiaona;Xue, Lulu;Han, Liu;Qu, Pengyu;Zhao, Huanhuan;Luo, Dandan;Wang, Xiaobo;Huang, Bingyan;Zhang, Maoning;Li, Chenyu;Zhang, Zhongxin;Dong, Wenzhao;Lei, Shi;Zhang, Xinyou;Li, Xiaona;Xue, Lulu;Han, Liu;Qu, Pengyu;Zhao, Huanhuan;Luo, Dandan;Wang, Xiaobo;Huang, Bingyan;Zhang, Maoning;Li, Chenyu;Zhang, Zhongxin;Dong, Wenzhao;Lei, Shi;Zhang, Xinyou;Li, Xiaona;Xue, Lulu;Han, Liu;Qu, Pengyu;Zhao, Huanhuan;Luo, Dandan;Wang, Xiaobo;Huang, Bingyan;Zhang, Maoning;Li, Chenyu;Zhang, Zhongxin;Dong, Wenzhao;Lei, Shi;Zhang, Xinyou;Li, Xiaona;Xue, Lulu;Han, Liu;Qu, Pengyu;Zhao, Huanhuan;Luo, Dandan;Wang, Xiaobo;Huang, Bingyan;Zhang, Maoning;Li, Chenyu;Zhang, Zhongxin;Dong, Wenzhao;Lei, Shi;Zhang, Xinyou;Li, Xiaona;Xue, Lulu;Han, Liu;Qu, Pengyu;Zhao, Huanhuan;Luo, Dandan;Wang, Xiaobo;Huang, Bingyan;Zhang, Maoning;Li, Chenyu;Zhang, Zhongxin;Dong, Wenzhao;Lei, Shi;Zhang, Xinyou;Li, Xiaona;Xue, Lulu;Han, Liu;Qu, Pengyu;Zhao, Huanhuan;Luo, Dandan;Wang, Xiaobo;Huang, Bingyan;Zhang, Maoning;Li, Chenyu;Zhang, Zhongxin;Dong, Wenzhao;Lei, Shi;Zhang, Xinyou
关键词:Peanut; AhFAD3-A01; ALA; Promoter; Arabidopsis
-
ESM-YOLOv11: A lightweight deep learning framework for real-time peanut leaf spot disease detection and precision severity quantification in field conditions
作者:Zhang, Yapeng;Li, Shangzhou;Feng, Sifan;Zhang, Juanjuan;Guo, Wei;Liu, Juan;Cui, Yanan;Liu, Haijiao;Sun, Ziqi;Cheein, Fernando Auat
关键词:Peanut; Leaf spot; YOLOv11; Disease severity assessment
-
Integrated metabolomic and transcriptomic analysis highlight the flavonoid response to antioxidant activity and Aspergillus flavus resistance in peanut seed coats
作者:Zhao, Xuejie;Xing, Minghui;Zhang, Lijing;Huang, Jinyong;Han, Suoyi;Zhang, Xinyou
关键词:Peanut; Metabolomics; Transcriptomic;
Aspergillus flavus ; Antioxidant activity; Flavonoid biosynthesis -
RNA-Seq Identification of Peanut Callus-Specific Promoters and Evaluation of Base-Editing Efficiency
作者:Xue, Lulu;Zhang, Xinyou;Xue, Lulu;Liu, Han;Zhao, Huanhuan;Qu, Pengyu;Li, Xiaona;Wang, Xiaobo;Huang, Bingyan;Sun, Ziqi;Han, Suoyi;Dai, Xiaodong;Dong, Wenzhao;Shi, Lei;Zhang, Xinyou;Wang, Xiaobo;Shi, Lei;Zhang, Xinyou
关键词:peanut; callus-specific promoter; off-target reduction; cytosine base editing; genome editing efficiency
-
Genome-Wide Identification, Evolution, and Expression Analysis of the DMP Gene Family in Peanut (Arachis hypogaea L.)
作者:Qu, Pengyu;He, Lina;Fu, Liuyang;Qu, Pengyu;He, Lina;Xue, Lulu;Liu, Han;Li, Xiaona;Zhao, Huanhuan;Han, Suoyi;Dai, Xiaodong;Dong, Wenzhao;Shi, Lei;Zhang, Xinyou;Xue, Lulu;Li, Xiaona
关键词:DMP; evolution; gene expression; haploid induction; peanut
-
Creation of fragrant peanut using CRISPR/Cas9
作者:Xue, Lulu;Qu, Pengyu;Zhao, Huanhuan;Liu, Han;Huang, Bingyan;Wang, Xiaobo;Zhang, Zhongxin;Dai, Xiaodong;Qin, Li;Dong, Wenzhao;Shi, Lei;Zhang, Xinyou;Xue, Lulu;Qu, Pengyu;Huang, Bingyan;Wang, Xiaobo;Zhang, Zhongxin;Dai, Xiaodong;Qin, Li;Dong, Wenzhao;Shi, Lei;Zhang, Xinyou;Wang, Xiaobo;Shi, Lei;Zhang, Xinyou
关键词:
-
Identification of oil content QTLs on Arahy12 and Arahy16, and development of KASP markers in cultivated peanut (Arachis hypogaea L.)
作者:Huang, Bingyan;Liu, Hua;Fang, Yuanjin;Miao, Lijuan;Qin, Li;Sun, Ziqi;Qi, Feiyan;Shi, Lei;Dong, Wenzhao;Zhang, Xinyou;Fang, Yuanjin;Chen, Lei;Zhang, Fengye;Wu, Jihua;Li, Shuanzhu;Zheng, Qinghuan
关键词:peanut; QTL; oil content; fatty acid composition; molecular markers
