Research
Research Field
We are investigating the cellular, molecular and circuit mechanism of cognitive functions such as learning-memory and social behaviors. Major research projects include:1. Learning deficits in neurodevelopmental disorders: We are studying the mechanism and treatment for learning and memory deficits in neurodevelopmental disorders, mainly focusing on RASopathies such as Noonan syndrome and NF1. In particular, we are interested in understanding the cell-type specific signaling networks in the nervous system. You can find our reports in Nature Neuroscience (Lee et al, 2014) and Science Signaling (Ryu et al., 2019).
2. Neural circuits underlying social behaviors: We are investigating the circuit mechanism underlying social behaviors such as social recognition and social memory. Specifically, we are investigating the prefrontal projections modulating social recognition in mice. You can find our reports in Cell Reports (Park et al., 2021).
3. Non-motor cognitive functions of the cerebellum: Apart from its well-known roles in motor coordination, the cerebellum is also involved in diverse cognitive functions. We are interested in the cerebellar circuit mechanism underlying affective behaviors. This is in a strong collaboration with Prof. Sang Jeong Kim in our department.
We are using state-of-the-arts techniques such as mutant mice, optogenetics, in vivo imaging in freely moving mice, and single cell transcriptomics.
Keyword
learning and memory, neurodevelopmental disorders, memory enhancement, hippocampus, molecular neurobiologyEducation
- 1994-1998 BS, Seoul National University
- 1998-2000 MS, Seoul National University
- 2000-2006 PhD in neuroscience, Seoul National University
Career
- 2007-2013 Post-doc, University of California Los Angeles
- 2013-2015 Assistant Professor, Chung-Ang University
- 2016-present Associate Professor, Seoul National University College of Medicine
Publication
- Park G, Ryu C, Kim S, Jeong SJ, Koo JW, Lee YS*, Kim SJ*. Social isolation impairs the prefrontal-nucleus accumbens circuit subserving social recognition in mice. Cell Rep. 2021 May 11;35(6):109104. [*Corresponding authors]
- Ryu HH, Kim T, Kim JW., Kang M, Park P., Kim YG, Kim H., Ha J., Choi JE, Lee J, Lim CS, Kim CH, Kim SJ, Silva AJ, Kaang BK, Lee YS. Excitatory neuron–specific SHP2-ERK signaling network regulates synaptic plasticity and memory. Sci. Signal. 2019, Vol. 12, Issue 571, eaau5755. (Cover)
- Lee YS*, Ehninger D, Zhou M, Oh J-Y, Kang M, Kwak C, Ryu HH, Butz D, Araki T, Cai K, Balaji J, Sano Y, Nam CI, Kim HK, Kaang BK, Burger C, Neel BG, Silva AJ*. Mechanism and treatment for the learning and memory deficits associated with mouse models of Noonan syndrome. Nat Neurosci. 2014.17(12):p.1736-43 [*Corresponding authors]
- Lee, Y.S. and A.J. Silva, The molecular and cellular biology of enhanced cognition. Nat Rev Neurosci, 2009. 10(2): p. 126-40.
- Lee, Y.S., S.L. Choi, S.H. Lee, H. Kim, H. Park, N. Lee, S.H. Lee, Y.S. Chae, D.J. Jang, E.R. Kandel, and B.K. Kaang, Identification of a serotonin receptor coupled to adenylyl cyclase involved in learning-related heterosynaptic facilitation in Aplysia. Proc Natl Acad Sci U S A, 2009. 106(34): p. 14634-9. (recognized by Faculty of 1000 Biology)