Aihui Tang
Affiliations: | 2014-2016 | University of Maryland School of Medicine, Baltimore, MD, United States |
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Parents
Sign in to add mentor| Bradley E. Alger | post-doc | 2008-2013 | University of Maryland Medical School |
| Thomas A. Blanpied | post-doc | 2014-2016 | University of Maryland Medical School |
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Publications
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| Xu N, Cao R, Chen SY, et al. (2024) Structural and functional reorganization of inhibitory synapses by activity-dependent cleavage of neuroligin-2. Proceedings of the National Academy of Sciences of the United States of America. 121: e2314541121 |
| Chen JH, Tang AH. (2024) Nanoscale Reorganization of Glutamate Receptors Underlies Synaptic Plasticity and Pathology. Neuroscience Bulletin |
| Sun SY, Nie L, Zhang J, et al. (2023) The interaction between KIF21A and KANK1 regulates dendritic morphology and synapse plasticity in neurons. Neural Regeneration Research. 20: 209-223 |
| Chen JH, Xu N, Qi L, et al. (2023) Reduced lysosomal density in neuronal dendrites mediates deficits in synaptic plasticity in Huntington's disease. Cell Reports. 42: 113573 |
| Zhu WH, Yang XX, Gou XZ, et al. (2023) Nanoscale reorganization of synaptic proteins in Alzheimer's disease. Neuropathology and Applied Neurobiology. e12924 |
| Sarkar D, Kang J, Wassie AT, et al. (2022) Revealing nanostructures in brain tissue via protein decrowding by iterative expansion microscopy. Nature Biomedical Engineering |
| Han Y, Cao R, Qin L, et al. (2022) Neuroligin-3 confines AMPA receptors into nanoclusters, thereby controlling synaptic strength at the calyx of Held synapses. Science Advances. 8: eabo4173 |
| Sun SY, Li XW, Cao R, et al. (2022) Correlative Assembly of Subsynaptic Nanoscale Organizations During Development. Frontiers in Synaptic Neuroscience. 14: 748184 |
| Gou XZ, Ramsey AM, Tang AH. (2022) Re-examination of the determinants of synaptic strength from the perspective of superresolution imaging. Current Opinion in Neurobiology. 74: 102540 |
| Ramsey AM, Tang AH, LeGates TA, et al. (2021) Subsynaptic positioning of AMPARs by LRRTM2 controls synaptic strength. Science Advances. 7 |