李知

职称：特聘教授

E-mail：lizhi@henu.edu.cn

研究方向：玉米抗逆改良与分子育种

2010年毕业于河南农业大学，2016年获中国农业大学作物遗传育种博士学位，2016.7至2020.7在美国明尼苏达大学双城分校应用植物遗传育种系和得克萨斯大学奥斯汀分校分子科学系从事博士后研究，2020.9-2020.12在先正达生物科技中国有限公司从事玉米产品研发线管理工作，2021年进入河南大学省部共建作物逆境适应与改良国家重点实验室工作。获批河南省高层次人才计划、河南省中原英才计划青年拔尖人才，主持省部级项目等4项。主要从事利用数量遗传学、分子生物学、多组学与生物信息学等手段从事玉米复杂性状的遗传改良和分子育种等方面的研究工作。以第一作者或者通讯作者在The Plant Cell, PNAS, The Plant Journal, Advances in Agronomy等杂志发表论文多篇。

主要研究方向：

1、作物抗逆种质资源鉴定与分子设计育种

2、玉米抗逆及水分高效利用分子机制与调控网络

发表论文：

代表性研究论文和著作(^§为通讯作者)：

1.Zhi Li; Z. Jeffery Chen^§. Nonadditive gene expression and epigenetic changes in polyploidy plants and crops,Advances in Agronomy,2022.Volume176.

2.Zhi Li^#; Andan Zhu^#; Qingxin Song; Helen Y. Chen; Frank G. Harmon; Z. Jeffrey Chen^§. Temporal Regulation of the Metabolome and Proteome in Photosynthetic and Photorespiratory Pathways Contributes to Maize Heterosis,The Plant Cell, 2020.12, 32: 3706-3722.

3.Zhi Li; Peng Zhou; Rafael Della Coletta; Tifu Zhang; Alex B. Brohammer; Christine H. O’Connor; Brieanne Vaillancourt; Anna Lipzen; Chris Daum; KerrieBarry; Natalia de Leon; Cory D. Hirsch; C. Robin Buell; Shawn M. Kaeppler; Nathan M. Springer; Candice N. Hirsch^§. Single-parent expression drives dynamic gene expression complementation in maize hybrids,The Plant Journal,2021.1, 105(1): 93-107.

4.Zhi Li; Sara B. Tirado; Dnyaneshwar C. Kadam; Lisa Coffey; Nathan D. Miller; Edgar P. Spalding; Aaron J. Lorenz; Natalia de Leon; Shawn M. Kaeppler; Patrick S. Schnable; Nathan M. Springer; Candice N. Hirsch^§. Characterizing introgression‑by‑environment interactions using maize near isogenic lines,Theoretical and Applied Genetics,2020.10, 133(10): 2761-2773.

5.Zhi Li^§; Jiabin Sun; Candice N. Hirsch^§. Understanding Environmental Modulation of Heterosis,Plant Breeding Reviews, 2023, Volume 46,John Wiley & Sons, Inc.

6.Qin Yang^#;Zhi Li^#; Wenqiang Li^#; Lixia Ku^#; Chao Wang; Jianrong Ye; KunLi; Ning Yang; Yipu Li; Tao Zhong; Jiansheng Li; Yanhui Chen^§; Jianbing Yan^§; Xiaohong Yang^§; Mingliang Xu^§; CACTA-like transposable element in ZmCCT attenuated photoperiod sensitivity and accelerated the postdomestication spread of maize,PNAS, 2013.10,110(42): 16969-16974..

7.Li, Z.,Coffey, L., Garfin, J., Miller, N. D., White, M. R., Spalding, E. P., de Leon, N., Kaeppler, S. M., Schnable, P. S., Springer, N. M., & Hirsch, C. N. (2018). Genotype-by-environment interactions affecting heterosis in maize. PloS one, 13(1), e0191321. https://doi.org/10.1371/journal.pone.0191321

8.Peng Zhou;Zhi Li; Erika Magnusson; Fabio Gomez Cano; Peter A. Crisp; Jaclyn M. Noshay; Erich Grotewold; Candice N. Hirsch; Steven P. Briggs; Nathan M. Springer*; Meta Gene Regulatory Networks in Maize Highlight Functionally Relevant Regulatory Interactions,The Plant Cell, 2020.5,32: 1377-1396.

9.Zhou, Y., Zhang, T., Wang, X., Wu, W., Xing, J.,Li, Z., Qiao, X., Zhang, C., Wang, X., Wang, G., Li, W., Bai, S., Li, Z., Suo, Y., Wang, J., Niu, Y., Zhang, J., Lan, C., Hu, Z., Li, B., … Song, C. P. (2023). A maize epimerase modulates cell wall synthesis and glycosylation during stomatal morphogenesis. Nature communications, 14(1), 4384.https://doi.org/10.1038/s41467-023-40013-6

10.Zhang, X., Zhu, T.,Li, Z.,Jia, Z., Wang, Y., Liu, R., Yang, M., Chen, Q. B., Wang, Z., Guo, S., & Li, P. (2022). Natural variation and domestication selection of ZmSULTR3;4 is associated with maize lateral root length in response to salt stress. Frontiers in plant science, 13, 992799.https://doi.org/10.3389/fpls.2022.992799

11.Xu, G., Zhang, X., Chen, W., Zhang, R.,Li, Z.,Wen, W., Warburton, M. L., Li, J., Li, H., & Yang, X. (2022). Population genomics of Zea species identifies selection signatures during maize domestication and adaptation. BMC plant biology, 22(1), 72. https://doi.org/10.1186/s12870-022-03427-w