専任技師 Jaewoon Jung
Educations
2005 |
Ph.D. (Physics) Korea Advanced Institute of Science and Techonology, Korea |
2000 |
M.S. (Physics) Korea Advanced Institute of Science and Techonology, Korea |
1998 |
B.S. (Physics) Korea Advanced Institute of Science and Techonology, Korea |
Research and teaching experiences
2010-present |
Research Scientist, RIKEN Advanced Institute for Computational Science, Japan |
2010 |
Assistant Professor Extraordinary, Graduate School of System Informatics, Kobe University, Japan |
2009 |
Assistant Professor Extraordinary, Graduate School of Engineering, Kobe University, Japan |
2006 |
Post Doctor, Graduate School of Information Science, Nagoya University, Japan |
2005 |
Post Doctor, Department of Chemistry, Korea Institute of Science and Technology, Korea |
Professional affiliations
The Biophysical Society of Japan, Japan Society for Molecular Science
Research projects
- Development of parallel Molecular Dynamics program
- Development of QM/MM program and simulations of the enzyme reactions
Publications
- Jung, J., Mori, T., Sugita, Y. Midpoint Cell Method for Hybrid (MPI+OpenMP) Parallelization of Molecular Dynamics Simulations. (2014) J. Comp. Chem.35: 1064-1072.
- Mori, T., Jung, J., Sugita, Y. Surface-tension replica-exchange molecular dynamics method for enhanced sampling of biological membrane systems. (2013) J. Chem. Theory Comput. 9: 5629-5640.
- Jung, J., Mori, T., Sugita, Y. Efficient lookup table using a linear function of inverse distance squared. (2013) J. Comput. Chem. 34: 2412-2420.
- Jung, J., Re, S., Sugita, Y., Ten-no, S. Improved constrained optimization method for reaction-path determination in quantum mechanical/molecular mechanical calculations. (2013) J. Chem. Phys. 138: 044106 (10 pages).
- Kitagawa, Y., Akinaga, Y., Kawashima, Y., Jung, J., Ten-no, S. A QM/MM-MD study on protein electronic properties: Circular dichroism spectra of oxytocin and insulin. (2012) Chem. Phys. 401: 95-102.
- Akinaga, Y., Jung, J., Ten-no, S. QM/MM calculation of protein magnetic shielding tensors with generalized hybrid-orbital method: A GIAO approach. (2011) Phys. Chem. Chem. Phys. 13:14490-14499.
- Kawashima, Y., Nakano, H., Jung, J., Ten-no, S. A combined quantum mechanical and molecular mechanical method using modified generalized hybrid orbitals : Implementation for electronic excited states. (2011) Phys. Chem. Chem. Phys. 13:11731-11738.
- Re, S., Imai, T., Jung, J., Ten-no, S., Sugita, Y. Geometrically Associative Yet Electronically Dissociative Character in the Transition State of Enzymatic Reversible Phosphorylation. (2011) J. Comput. Chem. 32:260–270.
- Jung, J., Sugita, Y., Ten-no, S. Møller-Plesset gradient implementation in the generalized hybrid orbital (GHO) method. (2010) J. Chem. Phys. 132: 084106 (6 pages).
- Jung, J., Bugals, A.J., Lee, E. Topological quantities determining the folding/unfolding rate of two-state folding proteins. (2010) J. Sol. Chem. 39:943-958.
- Jung, J., Ten-no, S. Simple avoidance of Pauli repulsion errors in the generalized hybrid orbital (GHO) method. (2010) Chem. Phys. Lett. 484:344-348.
- Ten-no, S., Jung, J., Chuman, H., Kawashima, Y. Assessment of free energy expressions in RISM integral equation theory: Theoretical prediction of partition coefficients revisited. (2010) Mol. Phys. 108:327-332.
- Re, S., Jung, J., Ten-no, S., Sugita, Y. A two-dimensional energy surface of the phosphoryl transfer reaction catalyzed by phosphoserine phosphatase. (2009) Chem. Phys. Lett. 480:284-288.
- Jung, J., Choi, C.H., Sugita, Y., Ten-no, S. New implementation of a combined quantum mechanical and molecular mechanical method using modified generalized hybrid orbitals. (2007) J. Chem. Phys. 127:204102 (12 pages).
- Jung, J., Lee, J., Moon, H. Topological Determinants of protein unfolding rates. (2005) Proteins:Structure, Function, and Bioinformatics 58:389-395.
- Jung, J., Lee, J., Moon, H. Identification of the Protein Native Structure by Using a Sequence-Dependent Feature in Contact Maps. (2005) J. Korean Phys. Soc. 46:625-630.