2020.10-至今 中国农业大学 农学院 实验师

2017.7-2020.9 清华大学 生命科学学院 博士后

2011.9-2017.7 清华大学 生命科学学院 博士

2007.9-2011.7 北京化工大学 生命科学与技术学院 本科

青蒿素的药物作用机制

[1]    Sun C and Zhou B. (2017) The antimalarial drug artemisinin induces an additional, SOD1-suppressible anti-mitochondrial action in yeast. BBA -molecular cell research, 1864:1285–1294.

[2]    Sun C*, Cao Y*, Zhu P and Zhou B. (2017) A mitochondrion-targeted artemisinin analogue with sharply increased anticancer but depressed anti-yeast and antimalarial activities. Scientific Reports, 7:45665. (*co-first author)

[3]    Sun C and Zhou B. (2016) The molecular and cellular action properties of artemisinins: what has yeast told us? Microbial Cell, 3(5):196-205.

[4]    Sun C*, Li J*, Cao Y, Long GB and Zhou B. (2015) Two distinct and competitive pathways confer the cellcidal actions of artemisinins. Microbial Cell, 2(1):14-25. (*co-first author)

[5]    Wu Y, Hu J, Sun C, Cao Y, et al. (2018) Nature-Inspired Bioorthogonal Reaction: Development of β- Caryophyllene as a Chemical Reporter in Tetrazine Ligation. Bioconjugate Chemistry. 29(7), 2287-295

[6]    Yi C, Tong JJ, Wang YZ, Lu PZ, Zhang JX, Sun C, Yuan KN, et al. (2017) Formation of a Snf1-Mec1-Atg1 Module on Mitochondria Governs Energy Deprivation-Induced Autophagy by Regulating Mitochondrial Respiration. Developmental Cell 41, 59–71.