郑少燕

发布者:爱游戏唯一官网发布时间:2022-05-09浏览次数:4859

   

   郑少燕

 副教授   性别: 女

  办公室: 爱游戏唯一官网北605

   E-mail:   syzheng@scau.edu.cn








主要从事水稻育性和水稻高产高光效方面的研究。利用基因工程的方法,克隆高产高光效相关的基因,培育高产高光效水稻品种。克隆了一批与水稻发育相关的重要调控基因,分析了它们的生物学功能,首次揭示了水稻AGO蛋白(OsAGO2)调控花药发育的表观遗传调控机制。相关成果发表的论文曾入选Web of Science为 “高被引论文”。以第一作者/通讯作者发表学术论文多篇,包括国际顶级期刊PNASNew phytologist, Plant physiology,Journal of Integrative Plant Biology等高水平论文,获得国家授权发明专利多项。

      主持国家自然科学基金青年基金项目,广东省基础与应用基础研究基金区域联合基金,爱游戏唯一官网高层次引进人才启动项目,博士后面上基金,博士后特别资助等;主要参加国家自然科学基金面上项目,广东省基础与应用基础研究基金区域联合基金(重点项目)等多项。指导大学生获得全国生命科学竞赛国家级三等奖、广东省二等奖(1项)和获批校级大学生创新创业项目1项。


工作经历

2022.04至今  爱游戏唯一官网爱游戏唯一官网     副教授

2019.04-2022.04  爱游戏唯一官网爱游戏唯一官网  博士后


研究方向

(1)水稻光合作用调控机理分析

利用基因工程的方法,克隆高产高光效相关的基因,阐明其分子机制,通过基因编辑的方法培育高产高光效水稻品种。

(2)水稻表观遗传调控的研究

隆水稻育性、叶片衰老相关的基因,分析其表观遗传调控的分子机理,创制产量提高、延缓衰老水稻创新种质,实现其在水稻生产中的应用。


发表的主要研究论文:

1.         Shaoyan Zheng# *, Junyu Chen#, Ying He#, Jingqin Lu, Hong Chen, Zipeng Liang, Junqi Zhang, Zhenlan Liu, Jing Li, Chuxiong Zhuang*, The OsAGO2-OsNAC300-OsNAP module regulates leaf senescence in rice.Journal of Integrative Plant Biology. 2024, 0(0): 1-18共同第一作者&共同通讯作者).

2.         Jingqin Lu#, Zuojie Jiang#, Junyu Chen#, Minyan Xie, Wenda Huang, Jing Li, Chuxiong Zhuang, Zhenlan Liu*, Shaoyan Zheng*, SET DOMAIN GROUP 711-mediated H3K27me3 methylation of cytokinin metabolism genes regulates organ size in rice, Plant Physiology, 2024, 194(4): 2069-2085共同通讯作者).

3.         Ruiqi Li, Ying He, Junyu Chen, Shaoyan Zheng*; Chuxiong Zhuang*. Research Progress in ImprovingPhotosynthetic Efficiency. International Journal of Molecular Sciences. 2023, 24, 9286.(共同通讯作者).

4.         Shaoyan Zheng*; Junyu Chen; Li Huatian; Zhenlan Liu; Jing Li; Chuxiong Zhuang*; Analysis of RNA Recognition and Binding Characteristics of OsCPPR1 Protein, Rice science, 2024, 31(2): 215-225.(第一作者/共同通讯作者)

5.   Shaoyan Zheng#, Jingfang Dong#, Jingqin Lu#, Jing Li, Dagang Jiang, Haopeng Yu, Simiao Ye, Wenli Bu, Zhenlan Liu, Hai Zhou, Yiliang Ding, Chuxiong Zhuang*. A cytosolic pentatricopeptide repeat protein is essential for tapetal plastid development by regulating OsGLK1 transcript levels in rice. New Phytologist. 2022 Jun; 234(5):1678-1695.

6.         Shaoyan Zheng, Chanjuan Ye, Jinqin Lu. et al. Improving the rice photosynthetic efficiency and yield by editing OsHXK1 via CRISPR/Cas9 system. International Journal of Molecular Sciences. 2021, 22(17):9554.

7.   Shaoyan Zheng, Jinqin Lu, Di Yu. et al. Hexokinase gene OsHXK1 positively regulates leaf senescence in rice. BMC Plant Biology. 2021, 21, 580.

8.         Shaoyan Zheng#, Jing Li#, Lu Ma, Hailong Wang, Hai Zhou, Erdong Ni, Dagang Jiang, Zhenlan Liu, and Chuxiong Zhuang*. OsAGO2 controls ROS production and the initiation of tapetal PCD by epigenetically regulating OsHXK1 expression in rice anthers. Proceedings of the National Academy of Sciences of the United States of America, 2019: 116 (15) 7549-7558.

9.         Chanjuan Ye, Shaoyan Zheng, Dagang Jiang. et al. Initiation and execution of programmed cell death and regulation of reactive oxygen species in plants. International Journal of Molecular Sciences. 2021, 22, 12942.

10.    Yin He, Liuyu Li, Weibiao Shi, Junhong Tan, Xiuxiu Luo, Shaoyan Zheng, Weiting Chen, Jing Li, Chuxiong Zhuang, Dagang Jiang. Florigen repression complexes involving rice CENTRORADIALIS2 regulate grain size. Plant Physiology. 2022 Sep 28;190(2):1260-1274.

11.    Erdong Ni#, Lingyan Zhou#, Jing Li#, Dagang Jiang, Zhonghua Wang, Shaoyan Zheng, Hua Qi, Ying Zhou, Cimei Wang, Shi Xiao, Zhenlan Liu, Hai Zhou* and Chuxiong Zhuang*. OsCER1 plays a pivotal role in very-long-chain alkane biosynthesis and affects plastid development and programmed cell death of tapetum in rice (Oryza sativa L.), Frontier in plant science, 2018, 9: 1217.

12.    Hai Zhou, Ming He, Jing Li, Liang Chen, Zhifeng Huang, Shaoyan Zheng, Liya Zhu, Erdong Ni, Dagang Jiang, Bingran Zhao & Chuxiong Zhuang*. Development of commercial thermo-sensitive genic male sterile rice accelerates hybrid rice breeding using the CRISPR/Cas9-mediated TMS5 editing system. Scientific Reports, 2016, 22(6): 37395.


授权发明专利


  1. 水稻OsPPR2-1基因在构建自然条件下育性提高的植株中的应用

  2. 一种与水稻产量相关蛋白及其编码基因与应用

  3. 一种利用CRISPR/Cas9系统突变OsHXK1获得产量提高植株的方法

  4. 一种提前水稻生育期及提高产量的方法

  5. 一种提高水稻抗热胁迫能力和/或产量的方法

  6. 转录因子OsHsfC1a在提高植物耐热性和产量中的应用