Pressure-dependent properties of elementary hydrophobic interactions: Ramifications for activation properties of protein folding

Engineering & Materials Science

• Protein folding 100%
• Methane 63%
• Chemical activation 61%
• Compressibility 38%
• Water 24%
• Proteins 20%
• Hydration 12%
• Hinges 11%
• Molecules 11%
• Sampling 7%
• Experiments 4%

Chemical Compounds

• Protein Folding 74%
• Volume 39%
• Desolvation 35%
• Methane 30%
• Activation Volume 26%
• Compressibility 22%
• Vd 14%
• Isothermal Compressibility 14%
• Adiabatic Compressibility 13%
• Force 13%
• Core Protein 12%
• Purity 9%
• Sampling 8%
• Transition State 8%
• Simulation 6%
• Probe 5%
• Pressure 5%
• Protein 4%
• Molecule 3%
• Surface 3%

Physics & Astronomy

• folding 69%
• proteins 54%
• activation 54%
• methane 37%
• interactions 26%
• compressibility 19%
• water 15%
• void ratio 15%
• hinges 8%
• packing density 8%
• hydration 7%
• voids 5%
• sampling 5%
• trends 5%
• probes 4%
• configurations 3%
• molecules 3%
• simulation 2%