현정호
Hyun, Jung Ho학력
- 2010 ~ 2015서울대학교 박사
- 2007 ~ 2010서울대학교 석사
- 2001 ~ 2007부산대학교 학사
경력
- 2019 ~ 2021Johns Hopkins University / Research Fellow
- 2015 ~ 2019Max Planck Florida Institute for Neuroscience / Postdoctoral Fellow
수상실적
- 2013 Best Poster Award / 서울대학교
- 2013 Best Research Paper Award / 서울대학교
연구실 소개
- Laboratory of Structural Learning and Neuromodulation
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My lab’s research focuses on decision-making processes in the brain, the role of neuromodulators as well as neuronal malfunctions in psychiatric diseases. Also, my lab’s research seeks to define neural mechanisms to control how internal states of the brain are reconfigured when animals make flexible decisions that use different underlying computations. To meet our goals, we use several behavioral models in rodents in combination with various cutting-edge techniques such as miniaturized micro-endoscopy (miniscope) calcium imaging with multiple in vivo recording in freely-moving animals. Main projects are described below:• Demystifying cognitive flexibility at single cell resolution• Neuromodulatory role in structural learning using in vivo imaging and computational approach• Neural correlates of inference in rodents• Develop novel technology to selective labeling and control of emotion state of the intact brain
Research Interests
Related Keyword
- "High-frequency (> 65 MHz) broadband transparent transducer with ultrathin gold electrode for dual-mode photoacoustic and laser-induced ultrasound microscopy", Photoacoustics, v.45
- "Engram and behavior: How memory is stored in the brain", Eom, Kisang. (2025-05). Engram and behavior: How memory is stored in the brain. Neurobiology of Learning and Memory, 219. doi: 10.1016/j.nlm.2025.108047
- "Molecular tools for recording and intervention of neuronal activity", Eom, Kisang. (2024-04). Molecular tools for recording and intervention of neuronal activity. Molecules and Cells, 47(4), 1–9. doi: 10.1016/j.mocell.2024.100048
- "Tagging active neurons by soma-targeted Cal-Light", Hyun, Jung Ho. (2022-12). Tagging active neurons by soma-targeted Cal-Light. Nature Communications, 13(1), 7692. doi: 10.1038/s41467-022-35406-y
- "Gradual decorrelation of CA3 ensembles associated with contextual discrimination learning is impaired by Kv1.2 insufficiency", Eom, Kisang. (2022-03). Gradual decorrelation of CA3 ensembles associated with contextual discrimination learning is impaired by Kv1.2 insufficiency. Hippocampus, 32(3), 193–216. doi: 10.1002/hipo.23400
연구분야
미래유망 신기술(6T)
국가과학기술표준분류