本团队围绕种质资源精准鉴定方向,针对大豆育种中耐密植高产抗病虫耐逆优质种质资源短缺问题,研发基于无人机遥感和深度学习的大豆高通量智能化耐密植鉴定和适应性模型预测等关键技术2项,实现了大豆种质资源复杂性状全生育期规模化精准鉴定和预测;开展7千余份大豆种质资源重要性状表型和基因型精准鉴定,遴选遗传背景清晰、育种可用的耐密高产蒙豆170、多抗熊97-8等优异种质234份,并搭建高产广适蒙豆1137和抗胞囊线虫高油黑农531等优异种质三代基因组,明确育种利用途径;举办优异种质现场观摩会6次,推动优异种质共享利用1,098份次;克隆调控蛋白和脂肪含量GmSop20、耐密植PH13、籽粒大小GmSW17.1、开花时间GmAP1d等大豆重要性状功能基因4个,明确了优异等位基因的演化规律和地理分布特点,为定向设计创制高油、高产大豆新材料提供了基因资源;在Advanced Science、Nature Communication、Plant Communication等期刊发表文章12篇,获得授权专利2项。
1. 代表性论文
(1) Haowei Zheng, Xinkang Feng, Longlong Wang, et al. GmSop20 functions as a key coordinator of the oil-to-protein ratio in soybean seeds. Advanced science, 2025, 12(38): e05181. doi: 10.1002/advs.202505181.
(2) Chao Qin, Ying-hui Li, Delin Li, Xueru Zhang, Lingping Kong , Yonggang Zhou, Xiangguang Lyu, Ronghuan Ji, Xiuzhi Wei, Qican Cheng, Zhiwei Jia, Xiaojiao Li, Qiang Wang, Yueqiang Wang, Wen Huang, Chunyan Yang, Like Liu, Xing Wang, Guangnan Xing, Guoyu Hu, Zhihui Shan, Ruizhen Wang, Haiyan Li, Hongyu Li, Tao Zhao, Jun Liu, Yuping Lu, Xiping Hu, Fanjiang Kong, Li-juan Qiu, Bin Liu. PH13 improves soybean shade traits and enhances yield for high-density planting at high latitudes. Nature Communication 2023, 14: 6813. doi: 10.1038/s41467-023-42608-5
(3) Delin Li, Qi Wang, Yu Tian, Xiangguang Lyv, Hao Zhang, Huilong Hong, Huawei Gao, Yanfei Li, Chaosen Zhao, Jiajun Wang, Ruizhen Wang, Jinliang Yang, Bin Liu, Patrick S. Schnable, James C. Schnable, Ying-hui Li, Li-juan Qiu. TWAS facilitates gene-scale trait genetic dissection through gene expression, structural variations, and alternative splicing in soybean. Plant Communications, 2024, 5(10):101010. doi: 10.1016/j.xplc.2024.101010.
(4) Yingpu Che, Yongzhe Gu, Dong Bai, Delin Li, Jindong Li, Chaosen Zhao, Qiang Wang, Hongmei Qiu, Wen Huang, Chunyan Yang, Qingsong Zhao, Like Liu, Xing Wang, Guangnan Xing, Guoyu Hu, Zhihui Shan, Ruizhen Wang, Ying-hui Li, Xiuliang Jin, Li-juan Qiu. Accurately estimate soybean growth stages from UAV imagery by accounting for spatial heterogeneity and climate factors across multiple environments. Computers and Electronics in Agriculture, 2024, 225:109313. doi: 10.1016/j.compag.2024.109313.
(5) Hao Zhang, Lei Yang, Shiyu Guo, Yu Tian, Chunyan Yang, Chaosen Zhao, Zhihui Shan, Qi Wang, Zihao Zheng, Ying-hui Li, Li-juan Qiu. A natural allelic variant of GmSW17.1 confers high 100-seed weight in soybean. The Crop Journal, 2024, 12(6):1709-1717. doi:10.1016/j.cj.2024.10.004.
(6) Shiyu Guo, Yanfei Li, Hongmei Qiu, Guoyu Hu, Chaosen Zhao, Ruizhen Wang, Hao Zhang, Yu Tian, Xiaoyu Li, Bin Liu, Ying-hui Li, Li-juan Qiu. GmAP1d regulates flowering time under long-day photoperiods in soybean. The Crop Journal, 2024, 12(3):845-855. doi:10.1016/j.cj.2024.03.004.
(7) Xiangying Kong, Kaiwen Lyu, Ruixin Xu, Yan Zhang, Dongdong Lu, Yongqi Liu, Jixian Zhai, Lijuan Qiu, Bosheng Li, Zhe Yan. DCL2-dependent regulation of sRNA biogenesis and translocation in soybean. The Crop Journal 2025. 13(3): 818-827. doi: 10.1016/j.cj.2025.04.007
(8) Yu Tian, Jia You, Zihao Zheng, et al. Structural variation in Heinong 531 soybean genome underlies yield and resistance traits. The Crop Journal, 2025:13(5):1574-1584. doi: 10.1016/j.cj.2025.07.001.
(9) Rujian Sun, Bincheng Sun, Zihao Zheng, et al. Chromosome-level genome assembly of a high-yield Chinese soybean variety Mengdou1137 unlocks genetic potential of disease and lodging resistance. Theoretical and Applied Genetics, 2025:138(6): 119. doi: 10.1007/s00122-025-04881-4.
(10) Jiaojiao Wang, Jinyue Yang, Junxing Yu, Yaxian Liu, Youping Wang, Amr El-Demerdash, Wenbin Zhou, Dewei Wu. Crop metabolic engineering towards enhanced resistance to pests and pathogens. The Crop Journal, 2026, in press. doi: 10.1016/j.cj.2026.01.001.
2. 代表性专利、软著与专著
(1) 一种用于大豆基因分型的分子标记组合及其应用,邱丽娟、李英慧、刘继强, ZL 202380012681.0
(2) 与大豆冠层覆盖度和开花期相关联的SNP分子标记与应用,邱丽娟、李英慧、李德林、白东,ZL 2022 1 0692368.3