1998-2002   学士    北京大学生命科学学院

2002-2007   博士    北京大学生命科学学院 

1. 利用超高分辨显微成像技术，阐明神经突触传递和可塑性的基本机理，以及这些过程中发生的偏差如何导致一系列神经系统疾病 
2. 基于单分子成像的空间转录组技术开发和应用

2007-2010   博士后    美国马里兰大学医院

2010-2015  Research Associate   美国马里兰大学医学院

2015-2018   研究助理教授    美国马里兰大学医学院

2018 至今   教授    中国科学技术大学生命科学与医学部

科技部重大研究计划
科技部科技创新2030重大项目
国自然面上项目

*第一作者，#通讯作者
1.	Gu W*, Chen JH*, Zhang Y*, Wang Z*, Li J*, Wang S, Zhang H, Jiang A, Zhong Z, Zhang J, Xu Z, Liu P, Xi C, Hou T, Gill DL, Li D, Mu Y#, Wang SQ#, Tang AH#, Wang Y# (2025) Highly dynamic and sensitive NEMOer calcium indicators for imaging ER calcium signals in excitable cells. Nat Commun. 16, 3472.
2.	Xu N*#, Chen SY*, Tang AH# (2025) Tuning synapse strength by nanocolumn plasticity. Trends Neurosci. 48(3):200-212.
3.	Sun SY, Nie LY, Fang X, Luo HM, Fu C, Wei Z, Tang AH# (2025) The interaction between KIF21A and KANK1 regulates dendritic morphology and synapse plasticity in neurons. Neural Regen Res. 20(1):209-223. 
4.	Chen JH#, Tang AH# (2024) Nanoscale reorganization of glutamate receptors underlies synaptic plasticity and pathology. Neurosci Bull. 40:840–844.
5.	Xu N*, Cao R*, Chen SY, Gou XZ, Wang B, Luo HM, Gao F, Tang AH (2024) Structural and functional reorganization of inhibitory synapses by activity-dependent cleavage of neuroligin-2. Proc. Natl. Acad. Sci. U.S.A., 121(18): e2314541121.
6.	Chen JH*#, Xu N*, Qi L, Yan HH, Wan FY, Gao, F, Fu C, Cang C, Lu B, Bi GQ, Tang AH# (2023) Reduced lysosomal density in neuronal dendrites mediates deficits in synaptic plasticity in Huntington’s disease. Cell Rep, 42(12): 113573.
7.	He J, Liu K, Wu Y, Zhao C, Yan S, Chen JH, Hu L, Wang D, Zheng F, Wei W, Xu C, Huang C, Liu X, Yao X, Ding L, Fang Z#, Tang AH#, Fu C# (2023) The AAA-ATPase Yta4/ATAD1 interacts with Dnm1 and Fis1 to inhibit mitochondrial fission.  Plos Bio., 21(8): e3002247.
8.	Li D, Cao R, Li Q, Yang Y, Tang AH, Zhang J, Liu Q (2023) Nucleolus assembly impairment leads to two-cell transcriptional repression via NPM1-mediated PRC2 recruitment. Nat Struct Mol Biol, 30(7):914-925.
9.	Li J*, Shang Z*, Chen JH* , Gu W*, Yao L*, Yang X, Sun X, Wang L, Wang T, Liu S, Li J, Hou T, Xing D, Gill DL, Li J, Wang SQ, Hou L, Zhou Y#, Tang AH#, Zhang X#, Wang Y# (2023) Engineering of NEMO as calcium indicators with large dynamics and high sensitivity. Nat Methods, 20: 918–924. 
10.	Han Y*, Cao R*, Qin L, Chen LY, Tang AH#, Südhof TC#, Zhang B# (2022) Neuroligin3 confines AMPA receptors in nanoclusters and controls synaptic strength at the calyx of Held. Sci Adv., 8(24): eabo4173.
11.	Gou XZ*, Ramsey AM*#, Tang AH# (2022) Re-examination of the determinants of synaptic strength from the perspective of superresolution imaging. Curr Opin Neurobiol, 74:102540.
12.	Ramsey A*, Tang AH*, LeGates TA, Gou XZ, Carbone BE, Thompson SM,  Biederer T and Blanpied TA (2021) Subsynaptic positioning of AMPARs by LRRTM2 controls synaptic strength. Sci Adv. 7(34): eabf3126. 
13.	Tang AH*#, Chen H*, Li TP, Metzbower SR, Mac Gillavry HD and Blanpied TA# (2016) A transsynaptic nanocolumn aligns neurotransmitter release to receptors. Nature. 536: 210–214.