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  • 사무실 단분자시스템생물학 연구실
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분자생물학 생물물리학 생화학

Membrane protein folding and SNARE mechanics: We aims to understand molecularmechanisms of “membrane proteins”, which have been largely shunted aside in spiteof their biological and practical importance. We employ an arsenal of single-moleculetechniques to observe both conformational changes and consequential function of the membrane proteins. As the first step toward this goal, we are pioneering an approach, in which we use to single-molecule magnetic tweezers to monitor folding of polytopic alpha-helical membrane proteins. This allows determination of the energy landscape governing the entire folding process of polytopic alpha-helical membrane proteins (Nat. Comm. 2013, 2014, Nat. Chem. Biol. 2015 and Science 2019). We use the same approach to study the single-molecule mechanics of SNARE assembly. We recently reported the disassembly mechanism of the SNARE complex by a proteasome system (20S complex), providing insights into how AAA+ ATPases tightly couple their ATP hydrolysis and unfolding of protein substrates (JACS 2013 and Science 2015).

PPI profiling toward Precision Medicine: In molecular biology, the co-IP analysis has been the gold standard of determining protein-protein interactions (PPIs) for several decades. By adopting single-molecule fluorescence microscopy as the detection method (instead of SDS PAGE-gel and western blotting), we have improved the sensitivity and time-resolution of the co-IP analysis by five orders of magnitude, respectively (Nat. Comm. 2013, Nat. Prot. 2013, JACS 2016). With the extreme sensitivity and quantitativeness of the developed tool, we demonstrate development of PPI biomarkers that allow precision prediction of drug responses of individual tumors, even in cancer types without actionable genomic mutations (Nat. Biomed. Eng. 2018). We seek to use this developed tool toward the goal of “personalized diagnosis of cancers at the PPI level”, which would expand the concept and scope ofthe targeted cancer therapy.

  • - 2000. 3 – 2004. 8 서울대학교 전기공학 박사
  • - 1998. 3 – 2000. 2 서울대학교 전기공학 석사
  • - 1994. 3 – 1998. 2 서울대학교 전기전자제어공학 학사
  • - 2021.03 - 서울대학교 생명과학부 교수
  • - 2017.03 – 2021.02 서울대학교 생명과학부 부교수
  • - 2016. 03 – 2017.02 연세대학교 Yonsei-IBS 과학원
  • - 2014. 02 – 2016.02 한국과학기술원 물리학과 영년직 부교수
  • - 2011. 04 – 한국연구재단 미래창조과학부 창의적연구진흥사업 연구단장
  • - 2010. 09 – 2014.02 한국과학기술원 물리학과 부교수
  • - 2007. 10 – 2010.08 한국과학기술원 물리학과 조교수
  • - 2006. 7 – 2007. 10 어바나-샴페인 소재 일리노이 주립대학 하워드 휴즈 의학 연구소 박사후연구원
  • - 2005. 7 – 2006. 7 어바나-샴페인 소재 일리노이 주립대학 물리학과 박사후연구원
  • - 2004. 9 – 2005. 6 서울대학교 반도체 공동 연구소 박사후연구원
  1. C. Kim, M. J. Shon, S. H. Kim, G. S. Eun, J. -K. Ryu, C. Hyeon, R. Jahn, & T.-Y. Yoon (2021) Extreme parsimony in ATP consumption by 20S complexes in global disassembly of single SNARE complexes, Nature Communications
  2. B. Choi, M. Cha, G. S. Eun, D. H. Lee, S. Lee, M. Ehsan, P. S. Chae, W. D. Heo, Y. Park & T.-Y. Yoon (2020) Single-molecule functional anatomy of endogenous HER2-HER3 heterodimers. eLife
  3. H.-K. Choi, D. Min, H. Kang, M. J. Shon, S.-H. Rah, H. Jeong, H.-J. Choi, J. U. Bowie & T.-Y. Yoon (2019) Watching helical membrane proteins fold reveals a common N- to C-terminal folding pathway. Science
  4. M. J. Shon, H. Kim & T.-Y. Yoon (2018) Focused clamping of a single neuronal SNARE complex by complexin under high mechanical tension. Nature Communications
  5. H.-W. Lee, B. Choi, H. N. Kang, H. Kim, A. Min, M. Cha, J. Y. Ryu, S. Park, J. Sohn, K. Shin, M. R. Yun, J. Y. Han, M. J. Shon, C. Jeong, J. Chung, S.-H. Lee, S.-A. Im, B. C. Cho & T.-Y. Yoon (2018) Profiling of protein–protein interactions via single-molecule techniques predicts the dependence of cancers on growth-factor receptors. Nature Biomedical Engineering


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