Publications

• 28

  Lee H, Park SH, Kim J, Lee J, Koh MS, Lee JH, Kim S. Evolutionary spread of distinct O-methyltransferases guides the discovery of unique isoaspartate-containing peptides, pamtides.

  Adv. Sci., 11, 2305946 (2024)

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• 27

  Im J, Lee J, Lee JH. Surface accessibility of an intrinsically disordered protein probed by 2D time-resolved laser-assisted NMR spectroscopy.

  J. Am. Chem. Soc., 144, 17010 (2022)

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• 26

  Mech MF, Hutchinson RB, Lee JH, Cavagnero S. Protein folding in vitro and in the cell: From a solitary journey to a team effort.

  Biophys. Chem., 287, 106821 (2022)

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• 25

  Lee K, Park SH, Lee JH. Selective detection of protein acetylation by NMR spectroscopy.

  J. Magn. Reson., 337, 107169 (2022)

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• 24

  Park TH, Jeong DW, Lee JH, Jang DJ. Seed-assembly-mediated fabrication and application of highly branched gold nanoshells having hollow and porous morphologies.

  Nanotechnology, 33, 155605 (2022)

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• 23

  Jeong DW, Park TH, Lee JH, Jang DJ. Efficient addition of desired carboxylate ligands to CdSe quantum dots passivated with phosphonic acids.

  J. Phys. Chem. C, 125, 22929 (2021)

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• 22

  Im J, Lee K, Jung S, Kim EH, Lee JH. Longitudinal spin order labeling on multiple quantum coherences enables NMR analysis of intrinsically disordered proteins at ultrahigh resolution.

  J. Phys. Chem. Lett., 12, 9315 (2021)

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• 21

  Lee K, Lee JH. Stable isotope labeling of proteins in mammalian cells.

  J. Kor. Magn. Reson. Soc., 24, 77 (2020)

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• 20

  Lee J, Park SH, Cavagnero S, Lee JH. High-resolution diffusion measurements of proteins by NMR under near-physiological conditions.

  Anal. Chem., 92, 5073 (2020)

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• 19

  Kim DH, Lee J, Mok KH, Lee JH, Han KH. Salient features of monomeric alpha-synuclein revealed by NMR spectroscopy.

  Biomolecules, 10, 428 (2020)

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• 18

  Park SH, Lee JH. Dynamic GPCR signaling probed by solution NMR spectroscopy.

  Biochemistry, 59, 1065 (2020)

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• 17

  Im J, Lee J, Lee JH. Pre-homonuclear decoupling enables high-resolution NMR analysis of intrinsically disordered proteins in solution.

  J. Phys. Chem. Lett., 10, 4720 (2019)

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• 16

  Alderson TR, Lee JH, Charlier C, Ying J, Bax A. Propensity for cis-proline formation in unfolded proteins.

  ChemBioChem, 19, 37 (2018)

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• 15

  Im J, Lee JH. Sensitivity enhancement in solution NMR via photochemically induced dynamic nuclear polarization.

  J. Kor. Magn. Reson. Soc., 21, 1 (2017)

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• 14

  Lee JH, Ying J, Bax A. Nuclear magnetic resonance observation of α-synuclein membrane interaction by monitoring the acetylation reactivity of its lysine side chains.

  Biochemistry, 55, 4949 (2016)

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• 13

  Lee JH, Ying J, Bax A. Quantitative evaluation of positive φ angle propensity in flexible regions of proteins from three-bond J couplings.

  Phys. Chem. Chem. Phys., 18, 5759 (2016)

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• 12

  Roche J, Shen Y, Lee JH, Ying J, Bax A. Monomeric Aβ(1-40) and Aβ(1-42) peptides in solution adopt very similar Ramachandran map distributions that closely resemble random coil.

  Biochemistry, 55, 762 (2016)

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• 11

  Li F, Lee JH, Grishaev A, Ying J, Bax A. High accuracy of Karplus equations for relating three-bond J couplings to protein backbone torsion angles.

  ChemPhysChem, 16, 572 (2015)

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• 10

  Mantsyzov AB, Shen Y, Lee JH, Hummer G, Bax A. MERA: a webserver for evaluating backbone torsion angle distributions in dynamic and disordered proteins from NMR data.

  J. Biomol. NMR, 63, 85 (2015)

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• 9

  Lee JH, Zhang D, Hughes C, Okuno Y, Sekhar A, Cavagnero S. Heterogeneous binding of the SH3 client protein to the DnaK molecular chaperone.

  Proc. Natl. Acad. Sci. U.S.A., 112, E4206 (2015)

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• 8

  Lee JH, Li F, Grishaev A, Bax A. Quantitative residue-specific protein backbone torsion angle dynamics from concerted measurement of 3J couplings.

  J. Am. Chem. Soc., 137, 1432 (2015)

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• 7

  Kim JH, Lee JH, Park MC, Yoon I, Kim K, Lee M, Choi HS, Han JM, Kim S. AIMP1 negatively regulates adipogenesis by inhibiting PPARγ.

  J. Cell Sci., 127, 4483 (2014)

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• 6

  Ying J, Li F, Lee JH, Bax A. 13Cα decoupling during direct observation of carbonyl resonances in solution NMR of isotopically enriched proteins.

  J. Biomol. NMR., 60, 15 (2014)

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• 5

  Lee JH, Okuno Y, Cavagnero S. Sensitivity enhancement in solution NMR: emerging ideas and new frontiers.

  J. Magn. Reson., 241, 18 (2014)

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• 4

  Lee JH, Cavagnero S. A novel tri-enzyme system in combination with laser-driven NMR enables efficient nuclear polarization of biomolecules in solution.

  J. Phys. Chem. B, 117, 6069 (2013)

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• 3

  Sekhar A, Santiago M, Lam HN, Lee JH, Cavagnero S. Transient interactions of a slow-folding protein with the Hsp70 chaperone machinery.

  Protein Sci., 21, 1042 (2012)

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• 2

  Lee JH, Sekhar A, Cavagnero S. 1H-Detected 13C photo-CIDNP as a sensitivity enhancement tool in solution NMR.

  J. Am. Chem. Soc., 133, 8062 (2011)

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• 1

  Lee BC, Johng HM, Lim JK, Jeong JH, Baik KY, Nam TJ, Lee JH, Kim J, Sohn UD, Yoon G, Shin S, Soh KS. Effects of extremely low frequency magnetic field on the antioxidant defense system in mouse brain: a chemiluminescence study.

  J. Photochem. Photobiol. B., 73, 43 (2004)

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