Hee-Sup Shin

Hee-Sup Shin
Born 1950
Residence South Korea
Nationality Korean
Fields Neuroscience
Institutions Korea Institute of Science and Technology
Alma mater Seoul National University, Cornell University
Known for T-type calcium channels
Notable awards

AFH Lectureship Prize (2004)
Ho-Am Prize in Science by Ho-Am Foundation (2004)
DuPont Prize (2004)

Top Scientist Award by Korean Government (2005)
Hee-Sup Shin
Hangul 신희섭
Revised Romanization Sin Hui-seop
McCune–Reischauer Sin Hŭisŏp

Hee-sup Shin was born in South Korea, in 1950. He is director of the Center for Cognition and Sociality.[1]

Education

Research

Shin work is aimed at understanding how changes in calcium dynamics in nerve cells regulate brain functions. He has been defining the physiological roles that a group of genes play in vivo, whose functions are known to be critical for regulation of intracellular calcium dynamics.

Shin first generates a transgenic mouse for a given gene, and then analyzes the mouse at the molecular, cellular, physiological, and behavioral levels.[2] Shin has been particularly interested in defining the functions of voltage gated calcium channels in normal as well as pathological states of the brain.

In particular, his work on the mutant mouse for a1G T-type calcium channels has provided conclusive evidence that T-type channels in the thalamus of the brain function to block sensory information derived from the body to be delivered to the cerebral cortex. The thalamus is the gateway through which all the somatic sensory information from the periphery must pass through to reach the cerebral cortex, where perception is achieved. Thus, the T-type channel mutant mouse lacking this block showed an enhanced response to visceral pain.

Shin has also shown that the same mutant mouse was resistant to absence epilepsy, a disease characterized by a brief loss of consciousness accompanied by abnormal EEG findings. Together, these results indicate that the thalamus is the brain center, controlling the state of consciousness by gating the sensory information from the outside world to reach the cortex, and that T-type calcium channels are the key element in this gating function

Honors and awards

References

  1. "Institute for Basic Science > Research Centers > Life Sciences > Center for Cognition and Sociality > Introduction". Ibs.re.kr. Retrieved 2013-11-29.
  2. Jeon D, Shin HS [2011] A mouse model for observational fear learning and the empathetic response. Curr. Protoc. Neurosci. Chapter 8: Unit 8.27
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