Theoretical and Computational Biophysics Laboratory33
From Atom to Protein Structure, Function & Life Phenomena via Statistical & Computational Physics of Bio-molecule.
1) Develop theoretical & computational framework to investigate thermodynamics, folding kinetics, mutagenesis of target protein, DNA and their comlex.
2) Uncover the fudamental physico-chemical principle behind biological function of protein, DNA, and their complex based on statistical physics, biophysics, quantum mechanics and computational physics.
3) Uncover the simplicity from the complexity
Advisor Professor : Chang, Iksoo
Theoretical and Computational Biophysics Laboratory Homepage
1) Develop theoretical & computational framework to investigate thermodynamics, folding kinetics, mutagenesis of target protein, DNA and their comlex.
2) Uncover the fudamental physico-chemical principle behind biological function of protein, DNA, and their complex based on statistical physics, biophysics, quantum mechanics and computational physics.
3) Uncover the simplicity from the complexity
Advisor Professor : Chang, Iksoo
Theoretical and Computational Biophysics Laboratory Homepage
Subject
- MODEL 6
- MOLECULAR-DYNAMICS 6
- DYNAMICS 3
- EXPRESSION 3
- SIMULATIONS 3
- STABILITY 3
- SYNCHRONIZATION 3
- ALPHA-HELIX 2
- ALZHEIMERS-DISEASE 2
- Article 2
Date issued
- 2020 - 2026 11
- 2014 - 2019 16
Co-Author(s)
Related Keyword
Recent Submissions
- Development of New IL-1R Antagonists with Improved Anti-inflammatory Efficacy
- Spontaneous formation of oligomers and fibrils in large scale molecular dynamics simulations of peptides
- Wavenumber-dependent transmission of subthreshold waves on electrical synapses network model of Caenorhabditis elegans
- Resting state of human brain measured by fMRI experiment is governed more dominantly by essential mode as a global signal rather than default mode network
- Development of equation of motion deciphering locomotion including omega turns of Caenorhabditis elegans