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Sensing-Applications of Surface-Based Single Vesicle Arrays
Sune M. Christensen,
Dimitrios Stamou
Institut for Neurovidenskab
42
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Teknik og materialevidenskab
Biological membranes
43%
Biomimetics
30%
Carrier Proteins
39%
Characterization (materials science)
21%
Chemical activation
22%
Enzymes
28%
Fluorescence microscopy
36%
Fusion reactions
19%
Ions
22%
Ligands
33%
Lipid bilayers
40%
Lipids
100%
Macromolecules
34%
Membranes
62%
Protein folding
36%
Proteins
45%
Scaffolds
29%
Screening
23%
Signal transduction
36%
Throughput
17%
Medicin og biovidenskab
Biochemical Phenomena
49%
Biomimetics
47%
Carrier Proteins
31%
Enzymes
20%
Fluorescence Microscopy
37%
Immobilization
38%
Ion Channels
74%
Ligands
26%
Lipid Bilayers
88%
Lipids
49%
Membrane Fusion
46%
Membranes
44%
Permeability
32%
Protein Folding
44%
Proteins
27%
Signal Transduction
29%
Fysik og astronomi
activation
14%
biomimetics
24%
cascades
16%
characterization
10%
confining
18%
curvature
14%
enzymes
19%
fluorescence
13%
folding
19%
format
18%
fusion
15%
high resolution
11%
immobilization
23%
interactions
14%
interrogation
21%
ligands
18%
lipids
73%
lumens
47%
macromolecules
19%
membranes
54%
microscopy
13%
permeability
16%
preparation
13%
probes
11%
proteins
59%
screening
16%
temporal resolution
19%
Kemiske forbindelser
Application
15%
Bilayer Membrane
28%
Biochemical Reaction
30%
Fluorescence Microscopy
24%
Ion
9%
Ligand
10%
Lipid
51%
Macromolecule
21%
Permeability
19%
Probe
15%
Protein
20%
Protein Folding
27%
Signal Transduction
27%
Surface
7%
Tension
23%