Guangying Li
Guangying Li, Ph.D.
Department of pharmacology
Email: gyli@suda.edu.cn
Biosketch
q Education
2008-2012 B.S. in Biotechnology, School of Life Science, Linyi University,
Linyi, China
2012-2017 Ph.D. in Biology, School of Life Science, Nanjing University,
Nanjing, China
2017-2020 Institute of Neuroscience, State Key Laboratory of Neuroscience, Center for Excellence in Brain Science and Intelligence Technology, Chinese Academy of Sciences, Shanghai, China
q Work experience
2020.02-2020.09Research assistant.School of Life Sciences, Peking-Tsinghua Center for Life Sciences, and Peking University McGovern Institute, Peking University, Beijing, China
2020.09-now Jiangsu Key Laboratory of Neuropsychiatric Diseases and College of Pharmaceutical Sciences, Soochow University, Suzhou, Jiangsu, China
q Honors and awards
2017.11 Daily funding for postdoctoral researchers, Shanghai
2014-2017 Second-class scholarship, Nanjing University
2015.10 Poster Award of 11th Biennial National Youth Physiologist Academic
Conference of the Chinese Physiological Society
2009-2012 Second-class scholarship, Linyi University
Research Interests
q Neuropsychiatric disorders and neuropharmacology
q Neural circuits and synaptic plasticity
Research Fund
2021.04 China Postdoctoral Science Foundation
2019.08 National Natural Science Foundation of China Youth Project
2018.04 China Postdoctoral Science Foundation
Select Publications
1. Chen, J. L#., Li, G. Y#., Qin, P. P., Chen, J. J., Ye, N., John L. Waddington, Zhen, X. C.* (2022) Allosteric Modulation of the Sigma-1 Receptor Elicits Antipsychotic-like Effects, Schizophrenia Bulletin. 2022 Mar 1;48(2):474-484.
2. Cao, H. T., Li, M.Y., Li, G. Y., Li, S. J., Wen, B. C., Lu, Y., Yu, X. Retinoid X Receptor α Regulates DHAdependent Spinogenesis and Functional Synapse Formation in vivo. Cell Reports. 2020 May 19;31(7):107649
3. Wang, M., Yu, Z.X., Li, G.Y., Yu, X. (2020) Multiple morphological factors underlie experience-dependent cross-modal plasticity in the developing sensory cortices. CEREBRAL CORTEX.2020 Apr 14;30(4):2418-2433
4. Li, G. Y#., Zhuang, Q. X.#, Zhang, X. Y#., Wang, J. J., and Zhu, J. N. (2019) Ionic Mechanisms Underlying the Excitatory Effect of Orexin on Rat Subthalamic Nucleus Neurons, Frontiers in cellular neuroscience13, 153.
5. Wang, J., Lou, S. S., Wang, T., Wu, R. J., Li, G., Zhao, M., Lu, B., Li, Y. Y., Zhang, J., Cheng, X., Shen, Y., Wang, X., Zhu, Z. C., Li, M. J., Takumi, T., Yang, H., Yu, X., liao, L., Xiong, Z.Q. (2019) UBE3A-mediated PTPA ubiquitination and degradation regulate PP2A activity and dendritic spine morphology, PNAS116, 12500-12505.
6. Zhuang, Q. X#., Li, G. Y#., Li, B#., Zhang, C. Z., Zhang, X. Y., Xi, K., Li, H. Z., Wang, J. J., and Zhu, J. N. (2018) Regularizing firing patterns of rat subthalamic neurons ameliorates parkinsonian motor deficits, The Journal of clinical investigation128, 5413-5427.
7. Duan, L., Zhang, X. D., Miao, W. Y., Sun, Y. J., Xiong, G. L., Wu, Q. Z., Li, G. Y., Yang, P., Yu, H., Li, H., Wang, Y., Zhang, M., Hu, L. Y., Tong, X., Zhou, W. H., Yu, X., Liao, L., Xiong, Z. Q. (2018) PDGFRbeta Cells Rapidly Relay Inflammatory Signal from the Circulatory System to Neurons via Chemokine CCL2, Neuron100, 183-200.e188.
8. Li, G. Y#., Zhuang, Q. X#., Li, B., Wang, J. J., and Zhu, J. N. (2017) [Subthalamic nucleus: from circuits, functions to a deep brain stimulation target for the treatment of Parkinson's disease], Sheng li xue bao : [Acta physiologica Sinica]69, 611-622.