李学军

　　 　　

一、基本信息

李学军，男，1971年生，陕西商州人。二级教授，博士生导师。作物遗传育种学博士，国家“万人计划”科技创新领军人才。西北农林科技大学青年学术骨干、唐立新优秀学者，入选西北农林科技大学“高层次人才发展支持计划”。担任南阳小麦育种试验示范站首席、国家一流专业“种子科学与工程”专业负责人。兼任中国农业生物技术学会第六届理事会理事、第五届国家小麦品种审定委员会委员、陕西省小麦品种审定委员会委员。

二、学习工作经历

1994年6月本科毕业于西北农业大学农学系，留校工作。2004年6月，获西北农林科技大学作物遗传育种学博士学位。2006年2月至2007年3月在美国cornell university（康奈尔大学）遗传育种系作访问学者。

三、研究方向

小麦遗传改良与新品种培育

四、本科教学课程

承担本科生《分子生物学》、《遗传学》、《植物育种学》等课程教学任务。

五、科研项目与成果

先后参加和主持国家重点研发计划、陕西省科技统筹重点项目、陕西省重点研发计划等科研项目30余项。先后参加或主持选育出国审小麦品种6个，省审小麦新品种13个。获国家科学技术进步奖二等奖1项，陕西省科学技术奖一等奖1项、二等奖3项、三等奖1项，陕西省人民政府推广成果二等奖1项，大北农育种奖1项。

六、代表性论文

1. Wang, B., Li, L., Liu, M., Peng, D., Wei, A., Hou, B., Lei, Y. and Li, X*. TaFDL2-1A confers drought stress tolerance by promoting ABA biosynthesis, ABA responses, and ROS scavenging in transgenic wheat. The Plant Journal. 2022,112:722–737

2.Huimin Sun, Yanzhou Xie, Weibing Yang, Qian Lv, Liuping Chen, Jiatao Li, Ying Meng, Liqun Li, Xuejun Li *. Membrane-bound transcription factor TaNTL1 positively regulates drought stress tolerance in transgenic Arabidopsis. Plant Physiology and Biochemistry, 2022,182:182-193

3. Qian Lv, Liqun Li, Ying Meng, Huimin Sun, Liuping Chen, Bingxin Wang, Xuejun Li *. Wheat E3 ubiquitin ligase TaGW2-6A degrades TaAGPS to affect seed size. Plant Science, 2022,320:111274

4. Hongchun Xiong, Chunyun Zhou, Meiyu Fu, Huijun Guo, Yongdun Xie, Linshu Zhao, Jiayu Gu, Shirong Zhao, Yuping Ding, Yuting Li, Jiazi Zhang, Ke Wang, Xuejun Li and Luxiang Liu*. Cloning and functional characterization of Rht8, a "Green Revolution"replacement gene in wheat. Molecular Plant, 2022, 15:373–376

5. Bingxin Wang, Liqun Li, De Peng, Mingliu Liu, Aosong Wei, and Xuejun Li*. TaFDL2-1A interacts with TabZIP8-7A protein to cope with drought stress via the abscisic acid signaling pathway. Plant Science, 2021,311:111022

6. Liye Zhao, Liqun Li, Lijun Song, Zhenzhen Liu, Xu Li, and Xuejun Li*. HMW-GS at Glu-B1 locus affects gluten quality possibly regulated by the expression of nitrogen metabolism enzymes and glutenin-related genes in wheat. Journal of Agricultural and Food Chemistry.2020, 68：5426-5436

7. Qian Lv, Li Zhang, Ting Zan , Liqun Li, and Xuejun Li*. Wheat RING E3 ubiquitin ligase TaDIS1 degrade TaSTP via the 26S proteasome pathway. Plant Science. 2020.296:110494

8. Ting Zan, Liqun Li, Tingting Xie, Li Zhang, Xuejun Li*. Genome-wide identification and abiotic stress response patterns of abscisic acid stress ripening protein family members in Triticum aestivum L. Genomics, 2020, 112：3794-3802

9. Lijun Song, Liye Zhao, Zhenzhen Liu, Liqun Li, Jinjuan Zheng, Xuejun Li*. Effects of exogenous starch on the structural–thermal properties of gluten in wheat with HMW-GS variations at Glu-D1 locus. Food Research International，2020，130:108950

10. Ting Zan, Liqun Li, Jiatao Li, Li Zhang, Xuejun Li*. Genome-wide identification and characterization of late embryogenesis abundant protein-encoding gene family in wheat: Evolution and expression profiles during development and stress. Gene, 2020,736

11. Lijun Song, Liqun Li, Liye Zhao, Zhenzhen Liu, Tingting Xie and Xuejun Li *. Absence of Dx2 at Glu-D1 Locus Weakens Gluten Quality Potentially Regulated by Expression of Nitrogen Metabolism Enzymes and Glutenin-Related Genes in Wheat. International Journal of Molecular Sciences,2020, 21:2-16

12. Lijun Song, Liqun Li, Liye Zhao, Zhenzhen Liu and Xuejun Li *. Effects of Nitrogen Application in the Wheat Booting Stage on Glutenin Polymerization and Structural–Thermal Properties of Gluten with Variations in HMW-GS at the Glu-D1 Locus. Foods.2020, 9, 353; doi:10.3390/foods9030353

13. Jian Zhu, Liqun Li, Liye Zhao, Lijun Song, Xuejun Li*. Effects of freeze–thaw cycles on the structural and thermal properties of wheat gluten with variations in the high molecular weight glutenin subunit at the Glu-B1 locus. Journal of Cereal Science, 2019,87:266-272

14. Yan Liu, Liqun Li, Li Zhang, Qian Lv, Yi Zhao, Xuejun Li*.Isolation and identification of wheat gene TaDIS1 encoding a RING finger domain protein, which negatively regulates drought stress tolerance in transgenic Arabidopsis. Plant Science, 2018, 275:49-59

15. Xin Gao, Tianhong Liu, Mengyun Ding, Jun Wang, Chunlian Li, Zhonghua Wang, Xuejun Li*. Effects of HMW-GS Ax1 or Dx2 absence on the glutenin polymerization and gluten micro structure of wheat (Triticum aestivum L.). Food Chemistry. 2018, 240:626-633

16. Juan Geng, Liqun Li, Qian Lv,Yi Zhao, Yan Liu,Li Zhang, Xuejun Li*. TaGW2‑6A allelic variation contributes to grain size possibly by regulating the expression of cytokinins and starch‑related genes in wheat. Planta, 2017, 246:1153–1163

17. Qingyan Li, Liqun Li, Yan Liu, Qian Lv, Heng Zhang, Jian Zhu, Xuejun Li*. Influence of TaGW2-6A on seed development in wheat by negatively regulating gibberellin synthesis. Plant Science, 2017, 263:226-235

18. Dengfeng Du, Xin Gao, Juan Geng, Qingyan Li, Liqun Li, Qian Lv, Xuejun Li*. Identification of key proteins and networks related to grain development in wheat (Triticum aestivum L.) by comparative transcription and proteomic analysis of allelic variants in TaGW2-6A. Frontiers in Plant Science, 2016, 7:922

19. Xuejun Li, Tianhong Liu, Lijun Song, Heng Zhang, Liqun Li, Xin Gao. Influence of high-molecular-weight glutenin subunit composition at Glu-A1 and Glu-D1 loci on secondary and micro structures of gluten in wheat (Triticum aestivum L.). Food Chemistry, 2016, 213: 728-734

20. Tianhong Liu, Xin Gao, Liqun Li, Dengfeng Du, Xian Cheng, Yi Zhao, Yan Liu, XuejunLi*.Effects of HMW-GS at Glu-B1 locus on polymerization of glutenin during grain development and on secondary and micro structures of gluten in wheat (Triticum aestivum L.). Journal of Cereal Science, 2016, 72:101-107

21. Xin Gao, Tianhong Liu, Jing Yu, Liqun Li, Yi Feng, Xuejun Li*. Influence of high-molecular-weight glutenin subunit composition at Glu-B1 locus on secondary and micro structures of gluten in wheat (Triticum aestivum L.). Food Chemistry, 2016, 197: 1184-1190

22. Hui Shao,Tian-hong Liu,Cong-Fu Ran,Li-Qun Li,Jing Yu,Xin Gao ,Xue-Jun Li*.Isolation and molecular characterization of two novel HMW-GS genes from Chinese wheat (Triticum aestivum L.) landrace Banjiemang. Genes Genom, 2015, 37:45–53

23. 寇程, 高欣, 李立群, 李扬, 王中华, 李学军* .小麦粒重基因TaGW2-6A 等位变异的组成分析及育种选择.作物学报,2015, 41(11)：1640-1647

24. 李扬，李立群，高欣，杨璐，寇程，吕千，刘天红，杜登峰，李学军*. 小麦粒重基因TaGW2-6A 编码区等位变异与抗旱性的关系.中国农业科学,2015, 48(21)：4209-4218

25. 余静,冉从福,李学军*,邵慧,李立群. 陕糯1 号与非糯小麦西农1330 胚乳发育及淀粉形态、粒径分析. 中国农业科学,2014, 47(22):4405-4416

26. Zibo Yang, Zhiyuan Bai, Xiaolin Li, Pei Wang, Qingxia Wu, Lin Yang, Liqun Li, Xuejun Li*. SNP identification and allelic-specific PCR markers development for TaGW2, a gene linked to wheat kernel weight. Theor Appl Genet, 2012, 125:1057–1068

七、联系方式

通讯地址：陕西杨凌西北农林科技大学农学院

邮编：712100

E-mail：xuejun@nwsuaf.edu.cn