An impedance QCM study on the partitioning of bioactive compounds in supported phospholipid bilayers

Colloids and Surfaces B: Biointerfaces

Volumn 86, Issue 2, 2011, Pages 298-304

  Kannisto, Klaara ^a   Murtomäki, Lasse ^a,b   Viitala, Tapani ^b  

^a AALTO UNIVERSITY   (Finland)

^b UNIVERSITY OF HELSINKI   (Finland)

Author keywords

Adsorption; Phospholipid bilayer; Quartz crystal microbalance; Viscoelasticity

Indexed keywords

AQUEOUS PHASE; BI-LAYER; BIOACTIVE COMPOUNDS; MELITTIN; MOLECULAR SIZE; PHOSPHOLIPID BILAYER; RESONANCE FREQUENCIES; SUPPORTED PHOSPHOLIPID BILAYERS; TETRACAINE; VISCOELASTIC MODELS; VISCOELASTIC PROPERTIES;

ADSORPTION; DRUG INTERACTIONS; ELASTICITY; LIPID BILAYERS; PHOSPHOLIPIDS; PIEZOELECTRIC DEVICES; QUARTZ; RESONANCE; SILICON COMPOUNDS; VISCOELASTICITY; VISCOSITY;

QUARTZ CRYSTAL MICROBALANCES;

MELITTIN; PROPRANOLOL; TETRACAINE;

ADSORPTION KINETICS; ARTICLE; BIOLOGICAL ACTIVITY; CONFORMATIONAL TRANSITION; CONTROLLED STUDY; CRYSTALLIZATION; DESORPTION; IMPEDANCE; INTERCALATION COMPLEX; MOLECULAR INTERACTION; MOLECULAR SIZE; PARTITION COEFFICIENT; PHASE SEPARATION; PHOSPHOLIPID BILAYER; PRIORITY JOURNAL; QUARTZ CRYSTAL MICROBALANCE; VISCOELASTICITY;

ADSORPTION; ELASTICITY; ELECTRIC IMPEDANCE; KINETICS; LIPID BILAYERS; LIPOSOMES; MELITTEN; PHOSPHOLIPIDS; PROPRANOLOL; QUARTZ CRYSTAL MICROBALANCE TECHNIQUES; SILICON DIOXIDE; TETRACAINE; THERMODYNAMICS; VISCOSITY; WATER;

EID: 79957635899     PISSN: 09277765     EISSN: 18734367     Source Type: Journal    
DOI: 10.1016/j.colsurfb.2011.04.012     Document Type: Article

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