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Structure-function relations in AMPA receptors: Dissertation
Arja Kuusinen
VTT Technical Research Centre of Finland
VTT (former employee or external)
Research output
:
Thesis
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Dissertation
›
Collection of Articles
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Dive into the research topics of 'Structure-function relations in AMPA receptors: Dissertation'. Together they form a unique fingerprint.
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Keyphrases
Structure Function
100%
AMPA Receptor (AMPAR)
100%
Ionotropic Receptor
100%
Extracellular Domain
66%
Kainate Receptor
66%
Binding Site
33%
High Affinity
33%
Fusion Protein
33%
TETRA
33%
High Five
33%
Structural Features
33%
Insect Cells
33%
Suspension Culture
33%
Isoxazole
33%
Dimerization
33%
Homogeneous Material
33%
Propionic Acid
33%
Biochemical Characterization
33%
Integral Membrane Protein
33%
Biophysical Characterization
33%
Ligand-binding Domain
33%
Receptor Subunits
33%
Ligand Binding
33%
Recombinant
33%
Affinity Chromatography
33%
Sf21 Insect Cells
33%
Anda
33%
Domain Organization
33%
Excitatory Neurotransmission
33%
Amino Acid Interactions
33%
Amino
33%
Spontaneous Excitatory Postsynaptic Current (sEPSC)
33%
N-methyl-D-aspartate
33%
Oligomerization
33%
Oligomeric
33%
Subtype-specific
33%
Glutamate Receptors
33%
MGluR6
33%
Methyl
33%
Ectodomain
33%
Ligand Binding Site
33%
Binding Protein
33%
Pentameric Complex
33%
Biochemistry, Genetics and Molecular Biology
Structure Activity Relation
100%
Glutamate Receptor
100%
AMPA Receptor
100%
N-Terminus
50%
Ligand Binding
50%
AMPA
50%
Binding Site
50%
Kainate Receptor
50%
Copurification
25%
Ligand Binding Domain
25%
Dimerization
25%
Binding Protein
25%
Oligomerization
25%
Ectodomain
25%
Amino Acids
25%
Suspension Cell Culture
25%
Agonist
25%
Integral Membrane Protein
25%
Polyacrylamide Gel Electrophoresis
25%
Chimeric Protein
25%
Aspartic Acid
25%
Affinity Chromatography
25%
Pharmacology, Toxicology and Pharmaceutical Science
Receptor
100%
Glutamate Receptor
100%
AMPA Receptor
100%
Alpha Amino 3 Hydroxy 5 Methyl 4 Isoxazolepropionic Acid
50%
Kainic Acid Receptor
50%
Binding Site
50%
Receptor Subunit
50%
Carbon Tetrachloride
25%
Binding Protein
25%
Propionic Acid
25%
Amino Acid
25%
Membrane Protein
25%
Aspartic Acid
25%
Polyacrylamide Gel Electrophoresis
25%
Chimeric Protein
25%
Isoxazole
25%
INIS
receptors
100%
structure functions
100%
proteins
33%
ligands
25%
affinity
16%
insects
16%
modifications
8%
production
8%
topology
8%
purification
8%
silver
8%
yields
8%
ions
8%
amino acids
8%
chromatography
8%
suspensions
8%
dimerization
8%
propionic acid
8%
membrane proteins
8%