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이도윤 교수

이도윤 교수

연구위원, 인지 및 사회성 연구단, 기초과학연구원


E-mail: leedoyun@ibs.re.kr

Lab homepage: doyunleelab.org

Research Topic

Neural mechanisms of individual recognitions

Recognizing individual conspecifics and accumulating individual-specific information through social interaction constitute a fundamental ability to survive as a member of a society. Although individual recognition has been reported in many different species including rodents, neural underpinnings of individual recognition have not been clear. My lab developed a novel individual discrimination paradigm that requires subject mice to distinguish between two familiar male siblings presented in random order and associate each with either reward or no reward.
This paradigm utilizes head-restrained mice to repetitively engage in simplified and stereotyped face-to-face interactions and allows us to quantitatively measure behavioral performance and to precisely correlate behaviors with neuronal activities. Using in vivo two-photon calcium imaging we found that activities of dorsal CA1 neurons provide information for individual conspecifics.

Research Interests

Social recognition, Hippocampus, Place cell, Episodic Memory

학력

  • 학사, 서울대학교 (1998) – Molecular biology
  • 석사, 서울대학교 (2000) – Molecular biology
  • 박사, 서울대학교 (2007) – Physiology

주요 경력

  • 2007–2008 박사후 연수과정, 서울대학교
  • 2008–2015 Postdoctoral associate, Janelia Research Campus, HHMI, USA
  • 2015–2020 연구위원 (영년직 트랙), 인지 및 사회성 연구단, 기초과학연구원
  • 2020- 연구위원, 인지 및 사회성 연구단, 기초과학연구원

대표 논문

  • Lee J, Bae C, Cho E, Lee D* and Jung MW* (2020) Transient effect of mossy fiber stimulation on spatial firing of CA3 neurons in familiar and novel environments. Hippocampus (Epub, doi:10.1002/hipo.23190) (* Co-corresponding author)
  • Lee J, Yun M, Cho E, Lee JW, Lee D* and Jung MW* (2019) Transient effect of mossy fiber stimulation on spatial firing of CA3 neurons. Hippocampus, 29(7):639-651 (* Co-corresponding author)
  • Lee D* and Lee AK* (2017) Whole-cell recording in the awake brain. Cold Spring Harb Protoc doi:10.1101/pdb.top087304 (* Co-corresponding author)
  • Lee D* and Lee AK* (2017) In vivo patch-clamp recording in awake head-fixed rodents. Cold Spring Harb Protoc doi:10.1101/pdb.prot095802 (* Co-corresponding author)
  • Lee D* and Lee AK* (2017) Efficient method for whole-cell recording in freely moving rodents using UV-cured collar-based pipette stabilization. Cold Spring Harb Protoc doi:10.1101/pdb.prot095810 (* Co-corresponding author)
  • Lee D*, Shtengel G, Osborne JE, Lee AK* (2014) Anesthetized- and awake-patched whole-cell recordings in freely moving rats using UV-cured collar-based electrode stabilization. Nature Protocols, 9:2784-2795. (* Co-corresponding author)
  • Lee D*, Lin B, Lee AK*. (2012) Hippocampal Place Fields Emerge upon Single-Cell Manipulation of Excitability During Behavior. Science, 337(6096):849-853 (* Co-corresponding author)
  • Lee D, Lee KH, Ho WK, Lee SH. (2007) Target cell-specific involvement of presynaptic mitochondria in post-tetanic potentiation at hippocampal mossy fiber synapses. J Neurosci, 27(50):13603-13613
  • Cho H, Lee D, Lee SH, Ho WK. (2005) Receptor-induced depletion of phosphatidylinositol 4,5-bisphosphate inhibits inwardly rectifying K+ channels in a receptor-specific manner. PNAS 102(12): 4643-4648
  • Lee D, Han J, and Park JY (2005) Acetylcholine Induces Hyperpolarization Mediated by Activation of K(Ca) Channels in Cultured Chick Myoblasts. Korean J Physiol Pharmacol 009(01): 37-44.
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