Jun Zhang#, Yue Yu#, Han Wang,Meiling Li, Dingning Li, Chenjiang You, Yingxiang Wang*, Cong Wang*. (2026). ATXR5 and ATXR6 restrict meiotic crossover formation within heterochromatin in Arabidopsis. J. Integr. Plant Biol.doi.org/10.1111/jipb.703112026-06-15
Yijie Fang#, Hongxin Xie#, Changkui Guo*,Yingxiang Wang*. (2026)Soybean Protein Quality and Quantity: Genetic Control and Environmental Influences. Plant, Cell & Environment. doi.org/10.1111/pce.706262026-06-09
Jing Xu#, Xiaolong Fang#, Cunyi Yang, Ji Qi*, Yingxiang Wang* and Qichao Lian*.(2026) Meiotic recombination assembles complementary parental alleles in an elite soybean line. New Crops. doi.org/10.1016/j.ncrops.2026.1001112026-06-03
Jiamin Hou#, Yanni Wei#, Hui Liu#, Boran Zhuang#, Dajian Zhang*, Yingxiang Wang*, Yalin Liu* et al., (2026) Centromere evolution in annual and perennial soybeans and its implication for hybridization in cultivated species. Genome Biol. doi:10.1186/s13059-026-04036-82026-03-24
Yapeng Han#, Qian Jia#, Mengshi Liu, Yuan Fang, Tianqi Shen, Shiru Tan, Qianya Gao, Jing Liu, Chenjiang You*, Yingxiang Wang*. (2026) Glycine max Jumonji C domain-containing proteins JMJ19/20 exhibit endopeptidase activity and interact with LUXs to mediate flowering time. Nucleic Acids Res. doi:10.12026-03-05
Wanyue Xu#, Qichao Lian#, Meiling Li, Gregory P. Copenhaver, Yingxiang Wang*. (2025) The regulatory mechanisms controlling meiotic cross-over patterning in plants. Biochem Soc Trans. doi.org/10.1042/BST202530252026-03-05
Yongsheng Chang#, Zhiyu Chen#, Wei Chen#, Xueying Jin, Xin Wang, Huadong Zhan, Ling Cao, Hong Wang, Yingxiang Wang*, Cong Wang*, Bo Sun*. (2025) KNUCKLES promotes meiotic cell cycle progression by directly repressing the expression of KRP1 and KRP3 to ensure male fertility. Plant Commun. doi:10.10162025-11-17
Qichao Lian#, Wen-Biao Jiao, Yingxiang Wang*. (2025) In Press, Journal Pre-proof Designing Better Crops with Phased Pangenomes. Molecular Plant .doi.org/10.1016/j.molp.2025.08.0142025-08-30
Jing Xu#, Yuan Fang#, Yanbo Cheng, Yingxiang Wang*, Changkui Guo*. (2025) Soybean cultivation in low-latitude regions: Adaptive strategies for sustainable production. Plant Cell Environ .doi.org/10.1111/pce.700642025-07-23
Yuan Fang#, Yapeng Han#, Yijie Fang, Jin Sun, Chuxin Lin, Birra Bukhari, Dong Zhou, Bin Liu, Changkui Guo*, Yingxiang Wang* (2025) Epigenetic regulation modulates seasonal temperature-dependent growth of soybean in southern China. Plant Biotechnol J. doi.org/10.1111/pbi.702432025-07-15
Mengshi Liu#, Yuan Fang#, Jiacan Jiang#, Huaizhen Chen, Bing Yang, Xiaomin Xu, Guoqiang Liu, Chen Ling, Zhicheng Dong, Cunyi Yang*, Yingxiang Wang* (2025) Natural variation in histone demethylase GmLDL2 confers flowering time divergence for geographical expansion in soybean. Nat Commun. doi.org/10.12025-07-01
Jing Xu, Lian Zhou, Kaixin Chen, Runsen Huang, Baixiao Niu, Juanying Ye, Hong Ma, Gregory P. Copenhaver, Yingxiang Wang* (2025) APC/C Coactivators Maintain Aurora 1 Homeostasis during Meiotic Chromosome Segregation in Arabidopsis. Plant Cell.doi.org/10.1093/plcel/koaf0892025-04-18
James Walker#, Jingyi Zhang#, Yalin Liu#, Shujuan Xu#, YimingYu,Martin Vickers, Weizhi Ouyang, Judit Tálas, Liam Dolan, Keiji Nakajima, Xiaoqi Feng* (2025) Extensive N4 Cytosine Methylation Is Essential for Marchantia Sperm Function. Cell. doi.org/10.1016/j.cell.2025.00287-92025-04-10
Birra Bukhari, changkui Guo, jin Sun, Yapeng Han, Xiancong Lai, chuxin Lin, Yingxiang Wang*,Yuan Fang* (2025) Proteomic, Transcriptomic, Biochemical and Physiological Investigations Shed Light on Responses to Low Temperature Stress in Two Contrasting Soybean Varieties. Plant, Cell Environment. doi.o2025-03-30
Zhengkun Chen,Yanni Wei,Jiamin Hou,Jing Huang,Xinyu Zhu,Boran Zhuang,Jing Han,Haifeng Peng,Yingxiang Wang*,Yalin Liu*(2024) Transcriptional atlas for embryo development in soybean. Seed Biology3: e022. doi: 10.48130/seedbio-0024-00212024-12-17
