教师名录

【研究方向】棉纤维发育调控机理

【办公地点】棉花国重老楼215

【联系邮箱】zhuliping0903@163.com

教育工作经历

2025.01–至今，河南大学棉花生物育种与综合利用全国重点实验室，特聘教授

2024.02–2026.02，香港浸会大学，博士后

2023.12–2024.12，陕西师范大学，副研究员

2020.10–2023.11，陕西师范大学，助理研究员

2015/09–2020/06，石河子大学，农业工程，工学博士

2011/09–2015/06，西华师范大学，生物科学，理学学士

科研项目：

1. 国家自然科学基金青年项目，GhRSL4介导的油菜素内酯信号途径调控棉花纤维发育的分子机制研究，30万，2023/01-2025/12，在研，主持。

2. 国家人力资源与社会保障部香江学者计划，RNA端帽的修饰和基因表达，72万，2024/01-2026/01，在研，主持。

3. 中国博士后科学基金面上项目，油菜素内酯信号通路调控棉纤维发育分子机制研究，8万，2023/01-2024/12，已结题，主持。

4. 陕西省博士后特别资助项目，肌醇依赖的棉纤维发育调控分子机制研究，15万，2024/01-2025/12，在研，主持。

5. 新疆维吾尔自治区智力援疆柔性援疆项目，激素调控纤维发育分子机理研究，15万，2024/10-2025/10，在研，主持。

6. 中央高校基本科研业务费青年教师自由探索项目，GhCERP介导的油菜素内酯信号调控棉纤维伸长发育分子机制研究，10万，2023/01-2024/12，已结题，主持。

7. 陕西师范大学科研启动项目，激素调控棉纤维发育的分子机制研究，20万，2023/11-2025/11，在研，主持。

8. 棉花生物学国家重点实验室开放课题基金，肌醇调控棉纤维发育的分子机制研究， 6万，2021/01-2022/12，已结题，主持。

代表性科研论文（*为通讯作者）：

1. Wang, H†., Zhu, L†., Fan, M†., Weng, S., Zhou, X., Zhao, H., Shen, Y., Chai, J., Hou, L., Hao, M., Tanvir, R., Li, L and Xiao, G*. (2025). Strigolactones promote cotton fiber cell elongation by eliminating the repression of DWARF53 on linolenic acid biosynthesis. Developmental Cell https://doi.org/10.1016/j.devcel.2024.12.009.

2. He, P†., Zhu, L†., Zhou, X., Fu, X., Zhang, Y., Zhao, P., Jiang, B., Wang, H., Xiao, G*. (2024). Gibberellin acid promotes single-celled fiber elongation through the activation of two signaling cascades in cotton. Developmental Cell 59(6), 723-739. https://doi.org/10.1016/j.devcel.2024.01.018.

3. Zhu, L., Zhu, J., Zhou, X., Lin, Y., Hou, L., Xiao, G*. (2025). The GhCEWT1-GhCEWT2-GhCes4D/GhCOBL4D module orchestrates plant cell elongation and cell wall thickness. Cell Reports 44, 115129. https://doi.org/10.1016/j.celrep.2024.115129.

4. Zhu, L†., Wang, H†., Zhu, J., Wang, X., Jiang, B., Hou, L., Xiao, G*. (2023) A conserved brassinosteroid-mediated BES1-CERP-EXPA3 signaling cascade controls plant cell elongation. Cell Reports 42, 112374.doi: 10.1016/j.celrep.2023.112301.

5. Zhu, L†., Jiang, B†., Zhu, J., Xiao, G*. (2022). Auxin promotes fiber elongation by enhancing gibberellic acid biosynthesis in cotton. Plant Biotechnology Journal 20, 423–425. https://doi.org/10.1111/pbi.13771.

6. Hou, L†., Zhu, L†., Hao, M., Liang, Y and Xiao, G*. (2025). Brassinosteroids enhances gibberellic acid biosynthesis to promote cotton fiber cell elongation. Plant Biotechnology Journal Advance online publication. https://doi.org/10.1111/pbi.14579.

7. Zhu, L., Dou, L., Shang, H., Li, H*., Yu, J*., Xiao, G*. (2021). GhPIPLC2D promotes cotton fiber elongation by enhancing ethylene biosynthesis. iScience 24(7), 102737. https://doi.org/10.1016/j.isci.2021.102737.

8. Jin, F†., Zhu, L†., Hou, L., Li, H., Li, L., Xiao, G*. (2024). Auxin resistant 2 and short hypocotyl 2 regulate cotton fiber initiation and elongation. Plant Physiology. 195(3), 2032-2052. https://doi.org/10.1093/plphys/kiae183.

9. Chen, X†., Xue, H†., Zhu, L†., Long, H., Zhao, J., Meng, F., Liu, Y., Luo, X., Xiao, G*., Zhu S*. (2022). ERF49 mediates brassinosteroid regulation of heat stress tolerance in Arabidopsis thaliana BMC Biology 20,254.

10. Hou, L†., Zhu, L†., Xue, H., Liu, Z*., Xiao, G*. (2022). Three root hair defective genes, GhRHD3-1, GhRHD4-1, and GhRSL4-1, regulate fiber cell elongation in cotton. Industrial Crops and Products 180, 114751.

11. 丁国华，肖光辉*，竺丽萍*。（2023） 棉花NLP（Nin-Like Protein）基因家族的全基因组分析及表达分析。中国农业科学 56(19):3723-3746。

12. Zhu, L†., Zheng, B†., Song, W., Tao, C., Jin, X*., Li, H*. (2019). Comparative proteomic analysis of molecular differences between leaves of wild-type upland cotton and its fuzzless-lintless mutant. Molecules 24(20), 3769.

13. Zhu, L†., Zheng, B†., Song, W., Li, H*., Jin, X*. (2019). Evolutionary analysis of calcium-dependent protein kinase in five asteraceae species. Plants 9(1), 32.

14. Zhu, L†., Jin, X†., Xie, Q., Yao, Q., Wang, X*., Li, H*. (2018). Calcium-dependent protein kinase family genes involved in ethylene-induced natural rubber production in different Hevea brasiliensis Cultivars. International Journal of Molecular Sciences 19(4), 947.

15. Lu, T†., Zhu, L†., Liang, Y., Wang, F., Cao, A., Xie, S., Chen, X., Shen, H., Wang, B., Hu, M., Li, R*., Jin, X*., Li, H*. (2022). Comparative proteomic analysis reveals the ascorbate peroxidase-mediated plant resistance to Verticillium dahliae in Gossypium barbadense. Frontiers in Plant Science 13, 877146. doi: 10.3389/fpls.2022.877146.

16. Jin, X†., Zhu, L†., Tao, C., Xie, Q., Xu, X., Chang, L., Tan, Y., Ding, G., Li, H*., Wang, X*. (2019). An improved protein extraction method applied to cotton leaves is compatible with 2-DE and LC-MS. BMC Genomics 20(1), 285.

17. Jin, X†., Zhu, L†., Yao, Q., Meng, X., Ding, G., Wang, D., Xie, Q., Tong, Z., Tao, C., Yu, L., Li, H*., Wang, X*. (2017). Expression profiling of mitogen-activated protein kinase genes reveals their evolutionary and functional diversity in different rubber tree (Hevea brasiliensis) Cultivars. Genes 8(10), 261.

18. Tian Z†., Zhang Y†., Zhu L., Jiang B., Wang H., Friml J., Xiao G*. (2022). Strigolactones act downstream of gibberellin to regulate fiber cell elongation and cell wall thickness. The Plant Cell 34(12):4816-4839. https://doi.org/10.1093/plcell/koac270.

19. 贾婷婷, 竺丽萍, 肖光辉*, 李鸿彬*。(2021). SMXL基因家族的全基因组分析及表达分析。中国科学 52，1868-1882。doi: 10.1360/SSV-2021-0023。