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바이오메디컬공학과 / Biomedical Engineering
김정범 Jeong Beom Kim
바이오메디컬공학과 / Biomedical Engineering
+82-52-217-5271
jbkim@UNIST.AC.KR
https://jbkim.unist.ac.kr/
Hans Schöler Stem Cell Research Center BLDG 105. RM224
Curriculum Vitae
• 2017 ~ Present : Associate Professor, UNIST
• 2009 ~ 2016 : Assistant Professor, UNIST
• 2010 ~ Present : Director, Hans Schöler Stem Cell Research Center (HSSCRC)
• 2012 ~ 2016 : Group leader, Max Planck Partner Group-MBL
• 2017 ~ Present : CEO, SuPine Therapeutics
Academic Credential
• 1993 ~ 2001 : B.S., Biology, Dongguk University, Korea
• 2001 ~ 2004 : M.S., Medical Science, Yonsei University College of Medicine, Korea
• 2005 ~ 2009 : Ph.D., Biology, Max Planck Institute for Molecular Biomedicine, Germany
Awards/Honors/Memberships
• 2022 Award of Minister of Small and Medium Business Administration
• 2021 “Top 3 Attractive Startup”, Global Biotech Startup Net-workshop
• 2018 Award of HYUNDAI Heavy Industries
• 2017 Award of Minister of Small and Medium Business Administration / Y-KAST
• 2013 Hanrim Leading Scientist
• 2010, 2011 “The leaders of Korea after 10 years”, Dong-A Newspaper
• 2010 Otto-Hahn Award
• 2009 MTZ-MPI Award
• 2008 International Society of Stem Cell Research(ISSCR), Junior Investigator Award
분자생의학 Lab (MBL)은 글로벌 줄기세포 연구그룹으로 세계적인 연구기관인 막스 플랑크 연구소와 네트워크를 가지고 있습니다. MBL은 난치병을 치료할 새로운 줄기세포 기술을 개발하는 것을 목표로 합니다. MBL은 전분화능 단계를 우회하여 목표 세포를 직접 생성하여 전분화능 줄기세포의 종양생성의 위험을 해결할 수 있는 직접교차분화 기술을 이용한 환자맞춤형 줄기세포 생성을 주로 연구하고 있습니다. 또한 MBL은 손상된 조직이나 장기 손상을 복구하기 위한 새로운 치료법을 찾기 위해 오가노이드 기술을 이용한 줄기세포 기반 조직을 개발하는데 주력하고 있습니다.
Molecular Biomedicine Lab (MBL) is a global stem cell research group that has a network with Max Planck Institute, the world-leading research institute. MBL aims to develop novel stem cell technologies to treat incurable disease. Direct conversion is a technology that can generate target cells from skin cells by bypassing the pluripotent stage thereby solving the tumorigenic risk of pluripotent stem cell. MBL focuses on developing stem cell treatments that repair damaged tissues or damaged organs using patient-specific stem cell s generated by direct conversion and organoid technology.
Major research field
역분화, 직접교차분화, 척수손상, 신경퇴행성질환, 오가노이드/어셈블로이드 / Reprogramming, Direct conversion, Spinal cord injury, Neurodegenerative disease, Organoid/assembloid
Desired field of research
환자맞춤형 줄기세포, 오가노이드/어셈블로이드, 혁신 신약, 신약개발 / Patient-specific stem cells, Organoid/assembloid, First-in-class drug, Drug development
Research Keywords and Topics
우리는 줄기세포의 생성 메커니즘에 대한 이해를 기반으로 역분화 줄기세포, 직접교차분화 줄기세포와 같은 환자 맞춤형 세포치료제 개발의 연구를 합니다. 퇴행성 질환과 현재 불치병에 대한 가능한 해결책으로 임상 응용을 위한 혁신적인 세포치료법을 연구하고 있습니다. 또한 iPS세포와 직접교차분화 줄기세포는 약물 개발과 독성테스트의 혁신적인 플랫폼으로 사용될 수 있습니다. 따라서, iPS세포와 직접교차분화세포의 잠재력은 매우 유망합니다.
Our research is based on an understanding of the mechanism of iPS reprogramming, direct conversion and the generation of patient-specific stem cells for future cell therapy. The aim is to develop innovative cell therapy technologies for degenerative and incurable diseases. In addition, iPS cells and directly converted cells can be used for innovative cell-based platform to drug screening and toxicity tests. Therefore, the therapeutic potential of iPS cell and directly converted cells are very promising.
Research Publications
MORE1. ELIFE, Sequentially induced motor neurons from human fibroblasts facilitate locomotor recovery in a rodent spinal cord model, LEE, H, Lee, HY, Lee, BE, Gerovska, D, Park SY, Zaehres, H, Araúzo-Bravo MJ, Kim, JI, Ha, Y, Schöler, HR, Kim, JB (2020, 06)
2. CELL, Oct4-induced pluripotency in adult neural stem cells, Kim, JB, Sebastiano, V, Wu, G, Araúzo-Bravo, MJ, Sasse, P, Gentile, L, Ko, K, Ruau, D, Ehrich, M, van den Boom, D, Meyer, J, Hübner, K, Bernemann, C, Ortmeier, C, Zenke, Fleischmann, BK, Zaehres, H, Schöler, HR, (2009.02)
3. NATURE, Pluripotent stem cells induced from adult neural stem cells by reprogramming with two factors, Kim JB, Zaehres, H, Wu, GM., Gentile, L, Ko, K, Sebastiano, V, Araúzo-Bravo, MJ, Rauu, D, Han, DW, Zenke, M, Schöler, HR, (2008, 07)
Patents
1. Hydrogel Patch, Jeong Beom Kim and Donggyu Nam. 12/10/2019
2. Composition for inducing direct conversion of somatic cell into oligodendrocyte progenitor cells and use the same, Jeong Beom Kim. 10/26/2017
국가과학기술표준분류
- LA. 생명과학
- LA03. 발생·신경생물학
- LA0306. 줄기세포생물학
국가기술지도분류
- 건강한 생명사회 지향
- 021500. 줄기세포 배양기술
6T분류
- BT 분야
- 보건의료 관련응용
- 020213. 생체조직 재생기술
