教授

【研究方向】小麦种质资源创新和遗传改良

【办公地点】抗逆改良中心

【联系邮箱】zhoumouyun@henu.edu.cn

【教育及工作经历】

1992.9-1996.7 河南大学，生物教育，学士学位；

1996.9-1999.7 河南大学，植物学，硕士学位（导师：宋纯鹏教授）；

2015.9-2020.8 河南大学，植物学，博士学位（导师：宋纯鹏教授）；

1999.7-2021.2 河南大学，生命科学学院，教师；

2010.7-2011.8 澳大利亚国立大学，植物科学系，访问学者；

2021.2-2025.5 河南大学深圳研究院；

2025.6-至今 河南大学生命科学学院，省部共建作物逆境适应与改良国家重点实验室，教师。

【代表性论文】 （# 第一作者，* 通讯作者）

Zhang, Z.^#, Qiu, X.^#, Guo, G.^#, Zhu, X.^#, Shi, J., Zhang, N., Ding, S., Tang, N., Qu, Y., Sun, Z., Li, H., Ma, F., Xie, S., Lv, Q., Fu, L., Hu, G., Cao, Y., Ge, H., Li, H., Huang, J., Xu, W., Yang, W.*, Zhou, Y.*, Song, C.-P.* (2025). An automated root phenotype platform enables nondestructive high-throughput root system architecture dissection in wheat. Plant Physiology, 198(1), 1–18. https://doi.org/10.1093/plphys/kiaf154.

Wang, K.^#, Guo, G.^#, Bai, S.^#, Ma, J.^#, Zhang, Z.^#, Xing, Z., Wang, W., Li, H., Liang, H., Li, Z., Si, X., Wang, J., Liu, Q., Xu, W., Yang, C., Song, R., Li, J., He, T., Li, J., Zeng, X., Liang, J., Zhang, F., Qiu, X., Li, Y., Bu, T., Liu, W., Zhao, Y., Huang*, J., Zhou, Y.*, & Song, C.-P.* (2025). Horizontally acquired CSP genes contribute to wheat adaptation and improvement. Nature Plants, 11(4), 761-774.

Yang, Z.^#, Bai, W.^#, Guo, G.^#, Huang, S., Wang, Y., Zhou, Y.*, Zhang, Y.*, & Sun, J.* (2025). The Q‐interacted protein QIP3 recruits TaTPL to regulate spike architecture in wheat. The Plant Journal, 122(2), 1–12.

Zhu, X.^#, Liu, X.^#, Wu, Q.^#, Liu, M.^#, Hu, X., Deng, H., Zhang, Y., Qu, Y., Wang, B., Gou, X., Li, Q., Han, C., Tu, J., Qiu, X., Hu, G., Zhang, J., Hu, L., Zhou, Y.*, & Zhang, Z.* (2025). Utilizing UAV-based high-throughput phenotyping and machine learning to evaluate drought resistance in wheat germplasm. Computers and Electronics in Agriculture, 237, 110602.

Shaheen, A.^#, Li, Z.^#, Yang, Y., Xie, J., Zhu, L., Li, C., Nie, F., Wang, M., Wang, Y., Rasheed, A., Li, H.*, Zhou, Y.*, & Song, C.-P.* (2025). Genetic regulation of wheat plant architecture and future prospects for its improvement. New Crops, 2, 100048.

Li, H.^#, Zhu, L.^#, Fan, R.^#, Li, Z., Liu, Y., Shaheen, A., Nie, F., Li, C., Liu, X., Li, Y., Liu, W., Yang, Y., Guo, T., Zhu, Y., Bu, M., Li, C. L., Liang, H., Bai, S., Ma, F., Guo, G., Zhang, Z., Huang, J., Zhou, Y.*, & Song, C.-P.* (2024). A platform for whole-genome speed introgression from Aegilops tauschii to wheat for breeding future crops. Nature Protocols, 19(2), 281–312.

Zhang, Z.^#, Qu, Y.^#, Ma, F.^#, Lv, Q., Zhu, X., Guo, G., Li, M., Yang, W., Que, B., Zhang, Y., He, T., Qiu, X., Deng, H., Song, J., Liu, Q., Wang, B., Ke, Y., Bai, S., Li, J., Lv, L., Li, R., Wang, K., Li, H., Feng, H., Huang, J., Yang, W., Zhou, Y.*, Song, C.-P.* (2024). Integrating high‐throughput phenotyping and genome‐wide association studies for enhanced drought resistance and yield prediction in wheat. New Phytologist, 243(5), 1758-1775.

Yan, L.^#, Jiao, B.^#, Duan, P.^#, Guo, G., Zhang, B., Jiao, W., Zhang, H., Wu, H., Zhang, L., Liang, H., Xu, J., Huang, X., Wang, Y., Zhou, Y.*, & Li, Y.* (2024). Control of grain size and weight by the RNA-binding protein EOG1 in rice and wheat. Cell Reports, 43(11), 114856.

Ma, F.^#, Li, R.^#, Guo, G., Nie, F., Zhu, L., Liu, W., Lyu, L., Bai, S., Zhao, X., Li, Z., Zhang, D., Li, H.*, Li, S.*, Zhou, Y.*, & Song, C.-P. (2023). Introgression of QTL from Aegilops tauschii enhances yield-related traits in common wheat. The Crop Journal, 11(5), 1521-1532.

Li, H.^#, Nie, F.^#, Zhu, L.^#, Mu, M., Fan, R., Li, J., Shaheen, A., Liu, Y., Li, C., Liu, W., Liang, H., Zhao, X., Bai, S., Guo, G., Li, Z., Hu, Y., Jiao, Y., Adams, J., Distelfeld, A., Sun, G., Li, S., Zhou, Y.*, Song, C.-P.* (2022). New insights into the dispersion history and adaptive evolution of taxon Aegilops tauschii in China. Journal of Genetics and Genomics, 49(3), 185-194.

Zhou, Y.^#, Bai, S.^#, Li, H.^#, Sun, G.^#, Zhang, D.^#, Ma, F., Zhao, X., Nie, F., Li, J., Chen, L., Lv, L., Zhu, L., Fan, R., Ge, Y., Shaheen, A., Guo, G., Zhang, Z., Ma, J., Liang, H., Qiu, X., Hu, J., Sun, T., Hou, J., Xu, H., Xue, S., Jiang, W., Huang, J., Li, S., Zou, C.*, Song, C.-P.* (2021). Introgressing the Aegilops tauschii genome into wheat as a basis for cereal improvement. Nature Plants, 7(6), 774-786.

He, G., Zhang, Y., Liu, P., Jing, Y., Zhang, L., Zhu, Y., Kong, X., Zhao, H.*, Zhou, Y.*, & Sun, J.* (2021). The transcription factor TaLAX1 interacts with Q to antagonistically regulate grain threshability and spike morphogenesis in bread wheat. New Phytologist, 230(3), 988-1002.

Yan, B.^#, Yang, Z.^#, He, G., Jing, Y., Dong, H., Ju, L., Zhang, Y., Zhu, Y., Zhou, Y.*, & Sun, J.* (2021). The blue light receptor CRY1 interacts with GID1 and DELLA proteins to repress gibberellin signaling and plant growth. Plant Communications, 2(6), 100245.

Zhou, Y., Zhang, L., Wu, Z., Dai, M., Li, L., Bai, L.*, & Song, C.-P. (2017). Biological function analysis of the phosphorylation sites for Arabidopsis CAP1. Science Bulletin, 62(11), 761–763.

Zhou, Y., Bai, L., & Song, C.-P.* (2015). Ammonium homeostasis and signaling in plant cells. Science Bulletin, 60(8), 741–747.

Bai, L.^#, Zhang, G.^#, Zhou, Y.^#, Zhang, Z., Wang, W., Du, Y., Wu, Z., & Song, C.* (2009). Plasma membrane‐associated proline‐rich extensin‐like receptor kinase 4, a novel regulator of Ca²⁺ signalling, is required for abscisic acid responses in Arabidopsis thaliana. The Plant Journal, 60(2), 314–327.

【项目/著作/专利】

河南省重点研发专项，2024.1-2026.12，主持人；

国家重点研发计划项目子任务，2022.12-2027.11，任务主持人；

科技创新国家重大项目子任务，2023.9-2025.12，任务主持人；

国家自然科学基金重点项目，2023.1-2027.12，参与人；

宋纯鹏，王学路，周云. 《植物生理学》（第五版，译著），科学出版社，2015。

【教学及人才培养】

讲授本科生《植物生理学》、研究生《高级植物生理学》和《研究生文献阅读》等课程。

【主要荣誉】

河南省中原基础研究领军人才（2024）