Peng Zhang, PhD

Assistant Professor
Department of Neurosciences
School of Medicine

Research Information

Research Interests

The human brain is made up of billions of neurons that connect precisely through 100 trillion+ specialized junctions called synapses. If a brain is considered a dedicated computer, synapses are the nodes relaying information from neurons to other targets. These synapses are tiny in size (<100 nm mostly) but enormously complex and diverse in their molecular composition, structural morphology and physiological properties. So, synapses are distinct in different brain circuits where distinct behaviors are executed.  

Fascinated by the complexity and diversity of synapses, we strive to understand the molecular codes behind them. The obvious candidates for establishing such codes are a group of synaptic organizing proteins that mediates specific synaptic recognition and differentiation between two neurons. The diversity of proteins is expanded by different isoforms created by alternative mRNA splicing. Yet how post-translational modifications upon the synaptic organizing proteins contribute to the complexity remains largely unexplored. We recently discovered an evolutionarily conserved glycosylation (heparan sulfate polysaccharides) on the core synaptic organizing protein neurexin. Then we defined the functional requirement of this glycan for the normal synaptic structure and function. Now, our lab aims to elucidate how glycans increase the complexity of molecular codes governing synaptic specificity and diversity.
 
Multiple model systems are adopted to address our questions, such as cultured neurons and transgenic mice. A wide range of interdisciplinary techniques are applied, including but not limited to molecular biology, biochemistry, electrophysiology and mouse behavioral observation. In particular, we have set up the methods of sub-diffraction fluorescence-imaging and serial block-face scanning electron microscopy. These robust tools allow us to analyze the molecular architecture and structural morphology of synapses at nanoscale. Combining our expertise in glycobiology and synapse development, we expect to gain insights to how glycan-based molecular processes govern synapse development and provide a foundation for deriving novel therapeutic approaches to correct imbalances in the synaptic pathway in neuropsychiatric disorders.
 

Recruiting:

The Zhang Lab is looking for motivated undergraduate and graduate students and postdoctoral fellows. All interested candidates are encouraged to contact Peng with a detailed CV and cover letter

Awards and Honors

Necia Laura May Elvin Memorial Prize in Schizophrenia Research
2019
SFARI Bridge to Independence Award
2018
Michael Smith Post-Doctoral Research Award
2013

Publications

Selected Publications

Zhang, P.#, Lu, H., Peixoto, R.T., Pines, M.K., Ge, Y., Oku, S., Siddiqui, T.J., Xie, Y., Wu, W., Archer-Hartmann, S., Yoshida, K., Tanaka, K.F., Aricescu, A.R., Azadi, P., Gordon, M.D., Sabatini, B.L., Wong, R.O.L. and Craig, A.M.# (2018)  . Cell. 174, 1450-1464 e1423,. (#Corresponding authors) [Previewed in Cell and highlighted by Faculty of 1000]

Li, Y.*, Zhang, P.*, Choi, T.Y., Park, S.K., Park, H., Lee, E.J., Lee, D., Roh, J.D., Mah, W., Kim, R., et al. (2015). . Cell Rep 12, 1618-1630. (*These authors Contributed equally)
 
Zhang, P., and Craig, A.M. (2015). . Neuron 86, 1321-1324.

Coles, C.H., Mitakidis, N., Zhang, P., Elegheert, J., Lu, W., Stoker, A.W., Nakagawa, T., Craig, A.M., Jones, E.Y., and Aricescu, A.R. (2014). . Nat Commun 5, 5209.

Siddiqui, T.J., Tari, P.K., Connor, S.A., Zhang, P., Dobie, F.A., She, K., Kawabe, H., Wang, Y.T., Brose, N., and Craig, A.M. (2013). . Neuron 79, 680-695. [Highlighted in neuron]

Zhang, P., Yang, Y., Candiello, J., Thorn, T.L., Gray, N., Halfter, W.M., and Hu, H. (2013). . Matrix Biol 32, 196-207

Zhang, P., and Hu, H. (2012). Glycobiology the Official Journal of the Society for Glycobiology 22, 235-247. 

Zhang, Z.*, Zhang, P.*, and Hu, H. (2011). . PLoS One 6, e19080. (*These authors Contributed equally)
 

Education

PhD
Neuroscience
SUNY Upstate Medical University
2011
Postdoctoral Fellowship
University of British Columbia
2020