Ⅰ. 教学工作

本科生课程：《园艺产品贮运学》、《观赏植物发育生物学》

研究生课程：《园艺学实验技术》、《高级园艺作物采后生理》

Ⅱ. 科研工作

研究介绍：月季是全球种植面积和销售份额最大的鲜切花，在长时间、远距离的贮运销过程中极易发生早衰，采后损耗严重。因此，我们通过遗传学、细胞生物学和分子生物学等手段阐明月季花瓣衰老和细胞死亡的生物学基础，并将基础研究成果应用到月季品种改良和切花采后保鲜实践中。

科研项目：

国家自然科学基金面上项目，RhSAF整合乙烯和赤霉素信号调节月季花瓣衰老的分子机制，2022-2025，主持

论文及著作（*通讯作者，#共同第一作者）

1.      Lu, J^#., Zhang, G^#., Ma, C., Li, Y., Jiang, C., Wang, Y., Zhang, B., Wang, R., Qiu, Y., Ma, Y., Jia, Y., Jiang, C.-Z., Sun, X., Ma, N., Jiang, Y*., and Gao, J*. (2024). The F-box protein RhSAF destabilizes the gibberellic acid receptor RhGID1 to mediate ethylene-induced petal senescence in rose. The Plant Cell. DOI: 10.1093/plcell/koae035

2.     Chen, C., Ma, Y., Zuo, L., Xiao, Y., Jiang, Y., and Gao, J*. (2023). The CALCINEURIN B-LIKE 4/CBL-INTERACTING PROTEIN 3 module degrades repressor JAZ5 during rose petal senescence. Plant Physiology 193, 1605-1620.

3.      Chen, C., Hussain, N., Ma, Y., Zuo, L., Jiang, Y., Sun, X*., and Gao, J*. (2023). The ARF2-MYB6 module mediates auxin-regulated petal expansion in rose. Journal of Experimental Botany 74, 4489-4502.

4.       Bazin, J^#., Mariappan, K^#., Jiang, Y., Blein, T., Voelz, R., Crespi, M., and Hirt, H*. (2020). Role of MPK4 in pathogen-associated molecular pattern-triggered alternative splicing in Arabidopsis. PLOS Pathogens 16, e1008401.

5.       Han, B^#., Jiang, Y^#., Cui, G., Mi, J., Roelfsema, M.R.G., Mouille, G., Sechet, J., Al-Babili, S., Aranda, M., and Hirt, H*. (2020). CATION-CHLORIDE CO-TRANSPORTER 1 (CCC1) Mediates Plant Resistance against Pseudomonas syringae. Plant Physiology 182, 1052-1065.

6.       Jiang, Y*., Han, B., Zhang, H., Mariappan, K.G., Bigeard, J., Colcombet, J., and Hirt, H*. (2019). MAP4K4 associates with BIK1 to regulate plant innate immunity. EMBO Reports 20, e47965.

7.       Huang, J., Zhao, X., Cheng, K., Jiang, Y., Ouyang, Y., Xu, C., Li, X., Xiao, J., and Zhang, Q*. (2013). OsAP65, a rice aspartic protease, is essential for male fertility and plays a role in pollen germination and pollen tube growth. Journal of Experimental Botany 64, 3351-3360.

8.       Jiang, Y., Cai, Z., Xie, W., Long, T., Yu, H., and Zhang, Q*. (2012). Rice functional genomics research: Progress and implications for crop genetic improvement. Biotechnology Advances 30, 1059-1070.

9.       Jiang, Y., Bao, L., Jeong, S.-Y., Kim, S.-K., Xu, C., Li, X., and Zhang, Q*. (2012). XIAO is involved in the control of organ size by contributing to the regulation of signaling and homeostasis of brassinosteroids and cell cycling in rice. The Plant Journal 70, 398-408.

10.    Yang, J^#., Zhao, X^#., Cheng, K^#., Du, H., Ouyang, Y., Chen, J., Qiu, S., Huang, J., Jiang, Y., Jiang, L., Ding, J., Wang, J., Xu, C., Li, X., and Zhang, Q*. (2012). A killer-protector system regulates both hybrid sterility and segregation distortion in rice. Science 337, 1336-1340.

11.     Li, Y., Fan, C., Xing, Y., Jiang, Y., Luo, L., Sun, L., Shao, D., Xu, C., Li, X., Xiao, J., He, Y., and Zhang, Q*. (2011). Natural variation in GS5 plays an important role in regulating grain size and yield in rice. Nature Genetics 43, 1266-1269.

教师个人网页：https://faculty.cau.edu.cn/jyh/