Keyphrases
Amino Acids
16%
Anesthetics
32%
Aortic Root
14%
Atomistic Model
14%
Binding Site
30%
Biological Studies
14%
Blood Clot
14%
Cardiac Surgery
14%
Cell Membrane
22%
Druggability
14%
Efficient Exploration
14%
Frail Elderly
14%
Frailty
14%
General Anesthetics
28%
Gla Domain
20%
Gloeobacter Violaceus
14%
Head Group
15%
In Silico
14%
Ion Channels
23%
Ligand-gated Ion Channel
15%
Lipid Binding Site
14%
Lipid Nanodiscs
14%
Lipids
36%
Membrane Anchor
30%
Membrane Binding
20%
Membrane Configuration
14%
Membrane Insertion
19%
Membrane Mimetic Models
50%
Membrane Mimetics
33%
Membrane Model
16%
Membrane Processes
14%
Membrane Protein
41%
Molecular Dynamics Simulation
25%
Molecular Species
16%
Nanodiscs
14%
Novel Membranes
28%
Organic Solvents
19%
Pentameric Ligand-gated Ion Channel (pLGIC)
46%
Perioperative Considerations
14%
Peripheral Proteins
44%
Phosphate
14%
Phospholipids
27%
Polyunsaturated Fatty Acids
14%
Protein-lipid Interactions
39%
Protein-membrane Interactions
22%
Sinus of Valsalva Aneurysm
14%
Small Molecule Interactions
14%
Structural Rearrangement
14%
Synaptobrevin
14%
TRP Channels
14%
Biochemistry, Genetics and Molecular Biology
Agonist
9%
Amino Acids
14%
Aqueous Solution
11%
Artificial Membrane
14%
Binding Site
45%
Biological Functions
11%
Cell Membrane
22%
Choline
7%
Coagulation System
14%
Computer Simulation
39%
Conformational Change
12%
Desflurane
10%
Dipole
19%
Docosahexaenoic Acid
14%
Dynamics
26%
Energy Transfer
21%
Enthalpy
7%
Erwinia
9%
Facilitated Diffusion
21%
Gloeobacter Violaceus
14%
Glycerol
7%
Integrin
14%
Ion Channel
27%
Isoflurane
7%
Ligand-Gated Ion Channel
57%
Lipid
100%
Lipid Bilayer
11%
Liquid
13%
Mediator
14%
Membrane Anchor
33%
Membrane Binding
27%
Membrane Lipid
7%
Membrane Model
19%
Molecule
19%
Palmitic Acid
7%
Palmitoyl Oleoyl Phosphatidyl Choline
7%
Peripheral Membrane Protein
13%
Phosphatidylserine
10%
Phospholipid
24%
Polyunsaturated Fatty Acid
14%
Propofol
7%
Protein C
7%
Protein-Lipid Interaction
21%
Protein-Membrane Interaction
26%
Serine
7%
Sevoflurane
7%
Small Molecule
21%
Transient Receptor Potential Channel
14%
Transmembrane Domain
13%
Vaporization
7%