Publications
† co-first authors * corresponding authors
Hidden route of protein damage through confined oxygen gas
S. Kim†, E. Kim†, M. Park†, S.H. Kim†, B.-G. Kim, V.W. Sadongo, W.C.B. Wijesinghe, Y.-G. Eom, G. Yoon, C. Lee, H. Jeong, C.U. Kim, K. Myung, J.-M. Choi, S.K. Min*, T.-H. Kwon*, and D. Min*
Submitted
Controlling autophagy by spatiotemporal protein photo-oxidation
M. Park†, J.S. Nam†, T. Kim†, S. Kim, C. Lee, C.G. Lee, S. Park, J. K. Seo*, D. Min*, T. Park*, and T.-H. Kwon*
Submitted
Oxidative photocatalysis on membranes triggers non-canonical pyroptosis
C. Lee†, M. Park†, W.C.B. Wijesinghe†, C.G. Lee, E. Hwang, G. Yoon, J.K. Lee, D.-H. Roh, Y.H. Kwon, J. Yang, S.A. Hughes, J.E. Vince, J.K. Seo*, D. Min*, and T.-H. Kwon*
Nature Communications (2024) In Press
Folding speeds of helical membrane proteins
D. Min*
Biochemical Society Transactions 52, 491 (2024) Link
Robust magnetic tweezers for membrane protein folding studies
S. Kim and D. Min*
Methods in Enzymology 694, 285 (2024) Link
Single-molecule tethering methods for membrane proteins
D. Lee and D. Min*
Methods in Enzymology 694, 263 (2024) Link
Chaperoning the major facilitator superfamily at single-molecule level
E. Kim and D. Min*
Structure 31, 1291 (2023) Link
Single-molecule force spectroscopy of membrane protein folding
W.C.B. Wijesinghe and D. Min*
Journal of Molecular Biology 435, 167975 (2023) Link
Robust membrane protein tweezers reveal the folding speed limit of helical membrane proteins
S. Kim†, D. Lee†, W.C.B. Wijesinghe, and D. Min*
eLife 12:e85882 (2023) Link
Single-molecule fluorescence imaging techniques reveal molecular mechanisms underlying deoxyribonucleic acid damage repair
Y. Kang†, S. An†, D. Min, and J.Y. Lee*
Frontiers in Bioengineering and Biotechnology 10:973314 (2022) Link
Watching helical membrane proteins fold reveals a common N- to C-terminal folding pathway
H.-K. Choi†, D. Min†, H. Kang†, M.J. Shon, S.-H. Rah, H.C. Kim, H. Jeong, H.-J. Choi*, J.U. Bowie*, and T.Y. Yoon*
Before UNIST
Unfolding of a ClC chloride transporter retains memory of its evolutionary history
D. Min, R.E. Jefferson, Y. Qi, J.Y. Wang, M.A. Arbing, W. Im, and J.U. Bowie*
Nature Chemical Biology 14, 489 (2018) Link
Accurate computational design of multipass transmembrane proteins
P. Lu, D. Min, F. DiMaio, K.Y. Wei, M.D. Vahey, S.E. Boyken, Z. Chen, J.A. Fallas, G. Ueda, W. Sheffler, V.K. Mulligan, W. Xu, J.U. Bowie, and D. Baker*
Science 359, 1042 (2018) Link
Applications of single molecule methods to membrane protein folding studies
R.E. Jefferson, D. Min, K. Corin, J.Y. Wang, and J.U. Bowie*
Journal of Molecular Biology 430, 424 (2018) Link
A simple DNA handle attachment method for single molecule mechanical manipulation experiments
D. Min, M.A. Arbing, R.E. Jefferson, and J.U. Bowie*
Protein Science 25, 1535 (2016) Link
Mapping the energy landscape for second-stage folding of a single membrane protein
D. Min†, R.E. Jefferson†, J.U. Bowie*, and T.Y. Yoon*
Nature Chemical Biology 11, 981 (2015) Link
Spring-loaded unraveling of a single SNARE complex by NSF in one round of ATP turnover
J.K. Ryu†, D. Min†, S.H. Rah†, S.J. Kim, Y. Park, H. Kim, C. Hyeon, H.M. Kim, R. Jahn*, and T.Y. Yoon*
Science 347, 1485 (2015) Link
Programmed folding of DNA origami structures through single-molecule force control
W. Bae, K. Kim, D. Min, J.K. Ryu, C. Hyeon, and T.Y. Yoon*
Nature Communications 5, 5654 (2014) Link
Mechanical unzipping and rezipping of a single SNARE complex reveals hysteresis as a force-generating mechanism
D. Min†, K. Kim†, C. Hyeon, Y.H. Cho, Y.K. Shin*, and T.Y. Yoon*
Nature Communications 4, 1705 (2013) Link