负责本科生《植物生理与生化》和《植物基因工程》课程、研究生《论文写作指导》课程的教学工作,参与研究生《作物生理与分子生物学》和《作物研究前沿》课程教学工作,参与省级教改项目1项。指导博士毕业生4名、硕士毕业生5名,现有在读博士生2名,在读硕士生6名,指导2名博士生和1名硕士生获得湖南省研究生科创项目资助。
1.Liu, B., Zhang, J., & Ye, N*. (2023). Noninvasive micro-test technology: monitoring ion and molecular flow in plants. Trends in Plant Science. doi.org/10.1016/j.tplants.2022.10.008. 中科院1区,IF 22.012.
2.Li, H., You, C., Yoshikawa, M., Yang, X., Gu, H., Li, C., ...Ye, N*., Zhang, J*., & Wang, G*. (2022). A spontaneous thermo-sensitive female sterility mutation in rice enables fully mechanized hybrid breeding. Cell Research, 32(10), 931-945. 中科院1区,IF 46.297.
3.Teng, Z., Chen, Y., Meng, S., Duan, M., Zhang, J*., & Ye, N*. (2023). Environmental Stimuli: A Major Challenge during Grain Filling in Cereals. International Journal of Molecular Sciences, 24(3), 2255. JCR Q1,IF 6.208.
4.Chen, Y., Teng, Z., Yuan, Y., Yi, Z., Zheng, Q.,... & Ye, N*. (2022). Excessive nitrogen in field-grown rice suppresses grain filling of inferior spikelets by reducing the accumulation of cytokinin and auxin. Field Crops Research, 283, 108542. 中科院1区,IF 6.145.
5.Peng, Y., Chen, Y., Yuan, Y., Liu, B., Yu, P., Song, S., ...Ye, N*. & Duan, M*. (2022). Post‐anthesis saline‐alkali stress inhibits grain filling by promoting ethylene production and signal transduction. Food and Energy Security, e384. JRC Q2,IF 4.667.
6.Hou, X., Chen, M., Chen, Y., Hou, X., Jia, Z., Yang, X., ... & Ye, N*. (2022). Identifying QTLs for Grain Size in a Colossal Grain Rice (Oryza sativa L.) Line, and Analysis of Additive Effects of QTLs. International journal of molecular sciences, 23(7), 3526. JCR Q1,IF 6.208.
7.Yi, Y., Peng, Y., Song, T., Lu, S., Teng, Z., Zheng, Q., ... & Ye, N*. (2022). NLP2-NR module associated NO is involved in regulating seed germination in rice under salt stress. Plants, 11(6), 795. JCR Q1,IF 4.658.
8.Teng, Z., Yu, H., Wang, G., Meng, S., Liu, B., Yi, Y., ... & Ye, N*. (2022). Synergistic interaction between ABA and IAA due to moderate soil drying promotes grain filling of inferior spikelets in rice. The Plant Journal, 109(6), 1457-1472. 中科院1区,IF 7.091.
9.Teng, Z., Zheng, Q., Liu, B., Meng, S., Zhang, J*., & Ye, N*. (2022). Moderate Soil Drying-Induced Alternative Splicing Provides a Potential Novel Approach for the Regulation of Grain Filling in Rice Inferior Spikelets. International Journal of Molecular Sciences, 23(14), 7770. JCR Q1,IF 6.208.
10.Teng, Z., Chen, Y., Yuan, Y., Peng, Y., Yi, Y., Yu, H., ... & Ye, N*. (2021). Identification of microRNAs regulating grain filling of rice inferior spikelets in response to moderate soil drying post-anthesis. The Crop Journal. doi.org/10.1016/j.cj.2021.11.004. 中科院1区,IF 4.647.
11.Wang, G., Li, X., Ye, N*., Huang, M., Feng, L., Li, H*., & Zhang, J*. (2021). OsTPP1 regulates seed germination through the crosstalk with abscisic acid in rice. New Phytologist, 230(5), 1925-1939. 中科院1区,IF 10.323.
12.Wang, G., Li, H., Gong, Y., Yang, J., Yi, Y., Zhang, J., & Ye, N*. (2020). Expression profile of the carbon reserve remobilization from the source to sink in rice in response to soil drying during grain filling. Food and Energy Security, 9(3), e204. JRC Q2,IF 4.667.