个人信息
博士,讲师,硕士研究生导师
Email: sxxiong@ldu.edu.cn
研究方向
作物分子生物学、作物遗传育种
个人简介
2021年于上海师范大学环境与地理科学学院获得博士学位,同年8月就职于0638太阳集团农林工程研究院讲师。主要从事番茄花药及花粉壁发育的分子机理及关键基因对育性调控,创制雄性不育系用于农业杂交育种。以第一作者或共同第一作者发表SCI论文3篇。
科研项目
(1) 山东省自然科学基金委员会,青年项目,ZR2022QC145,番茄MYB转录因子调控绒毡层发育和花粉壁形成的分子机制研究,2023-01-01至2025-12-31,15万元,在研,主持;
(2) 国家自然科学基金委员会,面上项目,32070343,水稻PPR家族蛋白EMS19在温敏核不育中的功能研究,2021-01-01至2024-12-31,58万元,在研,参与;
(3) 国家自然科学基金委员会,面上项目,31970303,EIN3互作蛋白EII6调控拟南芥叶片衰老启动的分子机理,2020-01-01至2023-12-31,58万元,在研,参与。
发表论文
7. Xiong SX#, Zeng QY#, Hou JQ, Hou LL, Zhu J, Yang M, Yang ZN, Lou Y*. (2020). The temporal regulation of TEK contributes to pollen wall exine patterning. PLoS Genet 16: e1008807. #: co-first author
6. Lu JY#, Xiong SX#, Yin WZ#, Teng XD, Lou Y, Zhu J, Zhang C, Gu JN, Wilson ZA*, Yang ZN*. (2020). MS1, a direct target of MS188, regulates the expression of key sporophytic pollen coat protein genes in Arabidopsis. J Exp Bot 71: 4877-4889. #: co-first author
5. Wang, K., Guo, Z.L., Zhou, W.T., Zhang, C., Zhang Z.Y., Lou, Y., Xiong, S.X., Yao, X.Z., Fan, J.J., Zhu, J., and Yang, Z.N*. (2018). The regulation of sporopollenin biosynthesis genes for rapid pollen wall formation. Plant Physiol.
4. Shi Q.S., Wang K.Q., Li Y.L., Zhou L., Xiong S.X., Han Y., Zhang Y.F., Yang N.Y., Yang Z.N., Zhu J*.(2018)OsPKS1 is required for sexine layer formation, which shows functional conservation between rice and Arabidopsis. Plant Science. 277:145-154.
3. Xiong SX, Lu JY, Lou Y, Teng XD, Gu JN, Zhang C, Shi QS, Yang ZN, Zhu J*. (2016). The transcription factors MS188 and AMS form a complex to activate the expression of CYP703A2 for sporopollenin biosynthesis in Arabidopsis thaliana. Plant J 88:936-946.
2. Li Y.L., Li D.D., Guo Z.L., Shi Q.S., Xiong S.X., Zhang C., Zhu J., Yang Z.N.*. 2016. OsACOS12, an orthologue of Arabidopsis acyl-CoA synthetase5, plays an important role in pollen exine formation and anther development in rice. BMC Plant Biology. 16(1):256.
1. Cai C.F., Zhu J., Lou Y., Guo Z.L., Xiong S.X., Wang K and Yang ZN*. 2015. The functional analysis of OsTDF1 reveals a conserved genetic pathway for tapetal development between rice and Arabidopsis. Science Bulletin 60(12): 1073-1082.