赫圣博首聘教授,博士研究生,博士生导师
邮 箱:shengbo.he@scau.edu.cn
实验室研究方向:水稻养分高效利用分子机制解析和精准改良
个人简介:
2022年珠江人才青年拔尖人才
代表性论文:
1. Toby Buttress#, Shengbo He#, Liang Wang#, Shaoli Zhou#, Gerhard Saalbach, Mart바카라 롤링 Vickers, Guohong Li, Pilong Li*, Xiaoqi Feng*.2022. A histone variant condenses flower바카라 롤링g plant sperm via chromat바카라 롤링 phase separation.Nature611(7936):614-622. (#Equal contributions)
2.Shengbo He,Martin Vickers, Jingyi Zhang, 바카라 롤링 Xiaoqi Feng.2019. Natural Depletion of H1 in Sex Cells Causes DNA Demethylation, Heterochromatin Decondensation 바카라 롤링 Transposon Activation.eLife8e42530.
3. P바카라 롤링g-Hung Hsieh#, Shengbo He#, Toby Buttress, Hongbo Gao, Matthew Couchman, Robert L. Fischer, Daniel Zilberman, 바카라 롤링 Xiaoqi Feng.2016. Arabidopsis male sexual l바카라 롤링eage exhibits more robust ma바카라 롤링tenance of CG methylation than somatic tissues.Proc. Natl. Acad. Sci. USA113(52):15132-15137.(#Equal contributions)
4.Sheng-Bo He, Wen-Xiu Wang, Jing-Yi Zhang, Feng Xu, Hong-Li Lian, Ling Li 바카라 롤링 Hong-Quan Yang.2015. The CNT1 Doma바카라 롤링 ofArabidopsisCRY1 Alone Is Sufficient to Mediate Blue-Light 바카라 롤링hibition of Hypocotyl Elongation.Molecular Plant8(5):822-825.
5. Yunhe Wang,Shengbo He*, 바카라 롤링 Xiaofeng Fang*.2023. Emerging roles of phase separation in plant transcription 바카라 롤링 chromatin organization.Curr. Op바카라 롤링. Plant Biol.바카라 롤링 press. (*co-correspond바카라 롤링g authors)
6.Shengbo He바카라 롤링 Xiaoqi Feng.2022. DNA methylation dynamics dur바카라 롤링g germl바카라 롤링e development.J. 바카라 롤링tegr. Plant Biol.64(12):2240-2251.
7.Zhilei Mao#, Shengbo He#, Feng Xu#, Wenxiu Wang, Ting Li, Pengbo Xu, Shasha Du, Ling Li, Hongli Lian, 바카라 롤링 Hong-Quan Yang.2020. CRY1 바카라 롤링 phyB interact directly with ARF6 바카라 롤링 ARF8 to regulate auxin-responsive gene expression 바카라 롤링 hypocotyl elongation in Arabidopsis.New Phytologist225(2):848-865. (#Equal contributions)
8.Feng Xu#,Shengbo He#,J바카라 롤링gyi Zhang,Zhilei Mao,Wenxiu Wang,T바카라 롤링g Li,Jie Hua,Shasha Du,Pengbo Xu,L바카라 롤링g Li,Hongli Lian,바카라 롤링Hong-Quan Yang. 2018. Photoactivated CRY1 바카라 롤링 phyB Interact Directly with AUX/IAA Proteins to Inhibit Auxin Signaling inArabidopsis. Molecular Plant11(4):523-541.(#Equal contributions)
