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Supramolecular Protein Immobilization on Lipid Bilayers
Ralph P. G. Bosmans
, Wouter E. Hendriksen
, Mark Verheijden
, Rienk Eelkema
, Pascal Jonkheijm
, Jan H. van Esch
, Luc Brunsveld
*
*
Corresponding author for this work
Institute of Nanoscopy
M4I - Nanoscopy
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Keyphrases
Lipid Bilayer
100%
Protein Immobilization
100%
Cucurbits
50%
Supramolecular Complex
33%
Methyl Viologen
33%
Tryptophan
16%
Cholesterol
16%
Specificity Protein 1
16%
Ligation
16%
Biomolecular
16%
Fluorescent Protein
16%
Polyethylene Glycol
16%
Quartz Crystal Microbalance with Dissipation (QCM-D)
16%
Noncovalent Interactions
16%
Indole
16%
Supramolecular Assembly
16%
Host-guest Interaction
16%
Reversible Immobilization
16%
Protein Side Chains
16%
Protein N-termini
16%
Biotechnological Research
16%
Macrocyclic Molecule
16%
Surface Releases
16%
Specific Immobilization
16%
INIS
proteins
100%
layers
100%
lipids
100%
surfaces
23%
interactions
15%
host
15%
fluorescence
7%
tryptophan
7%
chains
7%
molecules
7%
spacers
7%
cholesterol
7%
crystals
7%
buffers
7%
biotechnology
7%
washing
7%
indoles
7%
polyethylene glycols
7%
microbalances
7%
quartz
7%
Immunology and Microbiology
Protein Immobilization
100%
Lipid Bilayer
100%
Cucurbitaceae
75%
Amino Terminal Sequence
50%
Tryptophan
25%
Biochemistry, Genetics and Molecular Biology
Lipid Bilayer
100%
Protein Immobilization
100%
Cucurbitaceae
75%
N-Terminus
50%
Tryptophan
25%
Chemistry
Cucurbit[8]uril
100%
Paraquat
66%
Buffer Solution
33%
Host-Guest Interaction
33%
Poly(ethylene Glycol)
33%
Indole
33%
Tryptophan
33%