办公室地址

食品楼720

电子邮箱

23113146@whpu.edu.cn

研究方向

1. 植物基因组学及大数据分析

2. 特色资源植物种质资源鉴定

3. 玉米逆境生物学

教育经历

2019.10 -2023.6 博士  湖北大学 植物学专业

2010.9 -2013.6 硕士  华中农业大学 遗传学专业

2006.9 -2010.7 学士  河南科技大学 生物科学专业

工作经历

2023.7 -今     武汉轻工大学 生命科学与技术学院 讲师

2018.7 -2019.9  仲恺农业工程学院 实验员

2013.7 -2018.6  华中农业大学 科研助理

代表性论文与著作

1.Qi H., Wang J., Wang X., Liang K., Ke M., Zheng X., Tang W., Chen Z., Ke Y., Yang P., Qiu F., Yu F. ZmEREB180 modulates waterlogging tolerance in maize by regulating root development and antioxidant gene expression. Plant Biotechnol J. 2025, 23(6): 2062-2064.

2.Qi H., Yu F., Lü S., Damaris R., Dong G., Yang P. Exploring domestication pattern in lotus: insights from dispensable genome assembly. Front Plant Sci. 2023, 14: 1294033.

3.Qi H., Yu F., Deng J., Zhang L., Yang P. The high-quality genome of lotus reveals tandem duplicate genes involved in stress response and secondary metabolites biosynthesis. Hortic Res. 2023;10(5): uhad040.

4.Qi H., Liang K., Ke Y., Wang J., Yang P., Yu F., Qiu F. Advances of apetala2/ethylene response factors in regulating development and stress response in maize. Int J Mol Sci, 2023, 24: 5416.

5.Qi H., Yu F., Deng J., Yang P. Studies on lotus genomics and the contribution to its breeding. Int J Mol Sci, 2022, 23(13): 7270.

6.Qi H., Chen X., Luo S., Fan H., Guo J., Zhang X., Ke Y, Yang P., Yu F. Genome-wide identification and characterization heat shock protein 20 genes in maize. Life, 2022, 12, 1397.

7.Qi H., Yu F., Damaris R., Yang P. Metabolomics analyses of cotyledon and plumule showing the potential domestic selection in lotus breeding. Molecules, 2021, 26(4): 913.

8.齐欢欢, 祖明艳, 杨平仿. 莲子食用价值研究进展. 植物科学学报, 2020, 38(5): 716-722.

9.Qi H., Huang J., Zheng Q., Huang Y., Shao R., Zhu L., Zhang Z., Qiu F., Zhou G., Zheng Y., Yue B. Identification of combining ability loci for five yield related traits in maize using a set of testcrosses with introgression lines. Theor Appl Genet, 2013, 126(2): 369-377.

10. Huang J., Qi H., Feng X., Huang Y., Zhu L., Yue B. General combing ability of most yield related traits was weakly correlated to the traits per se in a set of maize introgression lines. Genetica, 2013, 141: 453-461.

11. Yu F., Qi H., Gao L., Luo S., Damaris R., Ke Y., Wu W., Yang P. Identifying RNA modifications by direct RNA sequencing reveals complexity of epitranscriptomic dynamics in rice. Genomics Proteomics Bioinformatics, 2023;21(4):788-804.

12. 齐欢欢, 段利超, 胡伟, 黄娟, 冯阳, 黄亚群, 祝丽英, 张祖新, 岳兵. 利用导入系群体对玉米产量及产量关性状进行定位分析. 玉米科学, 2013, 21: 24-32.

13. Feng X., Huang J., Qi H., Huang Y., Yue B. Identification of heterotic loci for seven yield and yield-related traits in maize with introgression lines. Au J Crop Sci, 2012, 6(12): 1661-1665.

14. 宋辉, 冯阳, 齐欢欢, 韩超逸, 严建兵, 岳兵. 玉米中OsAPO1同源序列克隆及其与产量相关性状的关系. 中国科学, 2014, 44: 837-844.

主要承担的科研项目

国家自然科学基金委员会，面上项目，30971791，玉米产量和产量构成因子配合力位点的定位与遗传分析（参与）

湖北省自然科学基金，2010CB01902，玉米产量性状一般配合力遗传基础与改良（参与）