QTL and candidate genes for heterophylly in soybean based on two populations of recombinant inbred lines
文献类型: 外文期刊
第一作者: Chen, Qiang
作者: Chen, Qiang;Liu, Bingqiang;Yan, Long;Lin, Jing;Shi, Xiaolei;Wei, Yu;Feng, Yan;Yang, Chunyan;Zhang, Mengchen;Chen, Qiang;Ai, Lijuan;Zhao, Hongtao;Liu, Chunji
作者机构:
关键词: heterophylly; QTL; soybean; leaf shape; breeding
期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:6.627; 五年影响因子:7.255 )
ISSN: 1664-462X
年卷期: 2022 年 13 卷
页码:
收录情况: SCI
摘要: Heterophylly, the existence of different leaf shapes and sizes on the same plant, has been observed in many flowering plant species. Yet, the genetic characteristics and genetic basis of heterophylly in soybean remain unknown. Here, two populations of recombinant inbred lines (RILs) with distinctly different leaf shapes were used to identify loci controlling heterophylly in two environments. The ratio of apical leaf shape (LSUP) to basal leaf shape (LSDOWN) at the reproductive growth stage (RLS) was used as a parameter for classifying heterophylly. A total of eight QTL were detected for RLS between the two populations and four of them were stably identified in both environments. Among them, qRLS20 had the largest effect in the JS population, with a maximum LOD value of 46.9 explaining up to 47.2% of phenotypic variance. This locus was located in the same genomic region as the basal leaf shape QTL qLSDOWN20 on chromosome 20. The locus qRLS19 had the largest effect in the JJ population, with a maximum LOD value of 15.2 explaining up to 27.0% of phenotypic variance. This locus was located in the same genomic region as the apical leaf shape QTL qLSUP19 on chromosome 19. Four candidate genes for heterophylly were identified based on sequence differences among the three parents of the two mapping populations, RT-qPCR analysis, and gene functional annotation analysis. The QTL and candidate genes detected in this study lay a foundation for further understanding the genetic mechanism of heterophylly and are invaluable in marker-assisted breeding.
分类号:
- 相关文献
作者其他论文 更多>>
-
Transcriptomic and metabolomic analysis of recalcitrant phosphorus solubilization mechanisms in Trametes gibbosa
作者:Chen, Yulan;Farooq, Akasha;Wei, Xieluyao;Qin, Leitao;Wang, Yong;Zhang, Lingzi;Xiang, Quanju;Zhao, Ke;Yu, Xiumei;Chen, Qiang;Penttinen, Petri;Gu, Yunfu;Gao, Xue;Nyima, Tashi
关键词:phosphate solubilizing fungi; transcriptomic analysis; metabolomic analaysis; phosphorus solubilization mechanism; bio-phosphate fertilizer
-
Soybean yield estimation and lodging classification based on UAV multi-source data and self-supervised contrastive learning
作者:Zhou, Longyu;Chen, Haochong;Feng, Puyu;Ma, Yuntao;Zhang, Yong;Wang, Lei;Li, Mingxue;Sun, Xuhong;Sun, Guangyao;Yan, Long;Qiu, Lijuan;Li, Yinghui
关键词:Remote sensing; 3D reconstruction; Point cloud; Multispectral; Structure from motion
-
Pleiotropic effects of Ebony on pigmentation and development in the Asian multi-coloured ladybird beetle, Harmonia axyridis (Coleoptera: Coccinellidae)
作者:Lin, Jing;Wu, Mengmeng;Chen, Xu;Zang, Liansheng;Lin, Jing;Wu, Mengmeng;Chen, Xu;Zang, Liansheng;Lin, Jing;Xiao, Da;Xu, Qingxuan;Wang, Su;Xiao, Da;Xu, Qingxuan;Wang, Su
关键词:CRISPR/Cas9;
Ebony ;Harmonia axyridis ; pigmentation -
Bridging the gap between hyperspectral imaging and crop breeding: soybean yield prediction and lodging classification with prototype contrastive learning
作者:Sun, Guangyao;Han, Shiteng;Xu, Yun;Ma, Yuntao;Zhang, Yong;Wang, Lei;Zhou, Longyu;Fei, Shuaipeng;Xiao, Shunfu;Ma, Yuntao;Yan, Long;Che, Yingpu;Li, Yinghui;Qiu, Lijuan
关键词:Unmanned Aerial Vehicle; Deep Learning; Resnet; Soybean Yield and Lodging Prediction
-
Widely Targeted Metabolomics Reveals the Quality Characteristics of a New Tea Cultivar, 'Baiyun 0495'
作者:Yu, Ying;Liang, Zijun;Zhang, Lei;Chen, Zhizhi;Zhao, Yixuan;Chen, Qiang;Yang, Ruxing;Yu, Ying;Zhang, Lei;Chen, Zhizhi;Yang, Ruxing;Liang, Zijun;Zhao, Yixuan;Chen, Qiang;Ye, Naixing
关键词:new tea tree stain; taste characteristics; flavor characteristics; metabolomics
-
DASNet a dual branch multi level attention sheep counting network
作者:Chen, Yini;Gao, Ronghua;Li, Qifeng;Wang, Rong;Ding, Luyu;Li, Xuwen;Chen, Yini;Zhao, Hongtao;Li, Xuwen
关键词:
-
AlphaFold-Guided Bespoke Gene Editing Enhances Field-Grown Soybean Oil Contents
作者:Wang, Jie;Yang, Maoxiang;Zhang, Zhihui;Zhou, Shaodong;Wu, Xianjin;Zhang, Li;Wang, Xin;Bai, Mengyan;Ren, Hengrui;Kuang, Huaqin;Li, Meina;Guan, Yuefeng;Wang, Shoudong;Sun, Jiayi;Li, Suning;Gong, Pingping;Du, Zhenghua;Dong, Yonghui;Paul, Arnav;Shukla, Diwakar;Tvedt, Nathan;Shukla, Diwakar;Shi, Xiaolei;Yan, Long;Shukla, Diwakar
关键词:AlphaFold; CRISPR-Cas9; gene editing; oil content; precision breeding; soybean; SWEET transporter
