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Pressure-dependent properties of elementary hydrophobic interactions: Ramifications for activation properties of protein folding
Cristiano L. Dias
, Hue Sun Chan
Physics
Research output
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Contribution to journal
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Article
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peer-review
48
Scopus citations
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Dive into the research topics of 'Pressure-dependent properties of elementary hydrophobic interactions: Ramifications for activation properties of protein folding'. Together they form a unique fingerprint.
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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%