姓名:韩超
电话:0532-53860881
邮箱:hanchao@sdu.edu.cn
个人简介
2005-2009,山东农业大学,园艺专业,农学学士
2009-2014,中国科学院大学,武汉植物园,生物学博士
2014-2016,比利时弗兰德斯生物技术研究所-根特大学植物系统生物学研究中心,博士后,获得FELLOWSHIPS TO NON-EU RESEARCHERS,Belgian Federal Science Policy Office (BELSPO)
2016-今,山东老员工命科学学院,助理研究员/副教授
研究方向
1. 植物能量感受的分子网络解析
2. 糖代谢调控植物发育及环境适应性的分子机理解析
主持项目
2018.1-2019.12,西北干旱区转基因耐旱耐盐碱棉花新品种培育,农业农村部转基因重大专项子课题
2019.1-2021.12,NAC家族转录因子BRT3调控植物抗旱的分子机理研究 ,国家自然科学基金青年项目
2020.9-2025.8,57365线路检测中心官网青年学者未来计划建设经费
2023.1-2026.12,SnRK1复合体调控表皮细胞不对称分裂的分子机理研究,国家自然科学基金面上项目
2023.1-2025.12,细胞微环境调控植物能量感受器SnRK1复合体的组装与功能,山东省自然科学基金优秀青年基金
2023.1-2025.12,山东省泰山学者青年专家建设经费
近年研究论文
1. Han C#, Wang L#, Lyu J, Shi W, Yao L, Fan M, Bai MY (2023). Brassinosteroid signaling and molecular crosstalk with nutrients in plants. Journal of Genetics and Genomics 50, 541-553. #共同第一
2. Wang H#, Han C#, Wang JG, Chu X, Shi W, Yao L, Chen J, Hao W, Deng Z, Fan M, Bai MY (2022). Regulatory functions of cellular energy sensor SnRK1 for nitrate signalling through NLP7 repression. Nature Plants 8, 1094–1107. #共同第一.
3. Han C, Hua W, Li J, Qiao Y, Yao L, Hao W, Li R, Fan M, De Jaeger G, Yang W, Bai MY. (2022). TOR promotes guard cell starch degradation by regulating the activity of β-AMYLASE1 in Arabidopsis. Plant Cell 34, 1038–1053. (F1000推荐论文)
4. Han C*, Qiao Y, Yao L, Hao W, Liu Y, Shi W, Fan M, Bai MY*. (2022). TOR and SnRK1 fine tune SPEECHLESS transcription and protein stability to optimize stomatal development in response to exogenously supplied sugar. New Phytologist 234, 107–121. *共同通讯
5. Van Leene J, Eeckhout D, Gadeyne A, Matthijs C, Han C, De Winne N, Persiau G, Van De Slijke E, Persyn F, Mertens T, Smagghe W, Crepin N, Broucke E, Van Damme D, Pleskot R, Rolland F, De Jaeger G (2022). Mapping of the plant SnRK1 kinase signalling network reveals a key regulatory role for the class II T6P synthase-like proteins. Nature Plants 8, 1245-1261.
6. Shi W, Wang L, Yao L, Hao W, Han C, Fan M, Wang W, Bai MY (2022). Spatially patterned hydrogen peroxide orchestrates stomatal development in Arabidopsis. Nature Communications 13, 5040.
7. Chu X, Wang JG, Li M, Zhang S, Gao Y, Fan M, Han C, Xiang F, Li G, Wang Y, Yu X, Xiang CB, Bai MY (2021). HBI transcription factor-mediated ROS homeostasis regulates nitrate signal transduction. Plant Cell 33, 3004-3021.
8. Han C, Liu Y, Shi W, Qiao Y, Wang L, Tian Y, Fan M, Deng Z, Lau OS, De Jaeger G, Bai MY (2020). KIN10 promotes stomatal development through stabilization of the SPEECHLESS transcription factor. Nature Communications 11, 4214.
9. Van Leene J#, Han C#, Gadeyne A#, Eeckhout D, Matthijs C, Cannoot B, De Winne N, Persiau G, Van De Slijke E, Van de Cotte B, Stes E, Van Bel M, Storme V, Impens F, Gevaert K, Vandepoele K, De Smet I, De Jaeger G. (2019). Capturing the phosphorylation and protein interaction landscape of the plant TOR kinase. Nature Plants 5, 316-327. #共同第一. (ESI高被引用论文,F1000推荐论文)
10. Han C, Yang P. (2016). Two dimensional gel electrophoresis-based plant phosphoproteomics. Phospho-Proteomics: Methods and Protocols, 213-223.
11. Han C, Yang P. (2015). Studies on the molecular mechanisms of seed germination. Proteomics 15, 1671-1679.
12. Han C, He D, Li M, Yang P. (2014). In-depth proteomic analysis of rice embryo reveals its important roles in seed germination. Plant and Cell Physiology 55, 1826-1847.
13. Han C, Wang K, Yang P. (2014). Gel-based comparative phosphoproteomic analysis on rice embryo during germination. Plant and Cell Physiology 55, 1376-1394.
14. Han C, Yang P, Sakata K, Komatsu S. (2014). Quantitative proteomics reveals the role of protein phosphorylation in rice embryos during early stages of germination. Journal of Proteome Research 13, 1766-1782.
15. Han C, Yin X, He D, Yang P. (2013). Analysis of proteome profile in germinating soybean seed, and its comparison with rice showing the styles of reserves mobilization in different crops. PLoS One 8, e56947.