Selective attachment of F-actin with controlled length for developing an intelligent nanodevice

Journal of Colloid and Interface Science

Volumn 356, Issue 1, 2011, Pages 182-189

  Wei, Ming Yuan ^a   Leon, Lenin J ^a   Lee, Yongkuk ^a   Parks, Denzel ^a   Carroll, Lloyd ^b   Famouri, Parviz ^a  

^a West Virginia University   (United States)

^b WEST VIRGINIA UNIVERSITY   (United States)

Author keywords

Atomic force microscopy; Bio molecular motors; Fluorescence microscopy; Photobiotin; Surface modification

Indexed keywords

ACTIN FILAMENT; AVERAGE LENGTH; BIO-MOLECULAR MOTORS; BLOCKING PROCESS; ELECTRICAL CONDUCTIVITY; ELECTRICAL FIELD; ELECTROSTATIC ADSORPTION; F-ACTIN; FLUIDIC FLOW; FUNCTIONALIZED; GELSOLIN; GLASS SURFACES; IN-VITRO; MICROCONTACT PRINTING METHOD; MOLAR RATIO; NANO DEVICE; NON-SPECIFIC BINDING; PATTERNED FILMS; PATTERNED SURFACE; PER UNIT; PHOTOBIOTIN; STREPTAVIDIN; SURFACE MODIFICATION;

ADSORPTION; ATOMIC FORCE MICROSCOPY; ELECTRIC CONDUCTIVITY; ELECTRON DEVICE MANUFACTURE; FLUORESCENCE; FLUORESCENCE MICROSCOPY; LINEAR MOTORS; NANOSTRUCTURED MATERIALS;

PROTEINS;

BIOTIN; F ACTIN; GELSOLIN; MYOSIN; STREPTAVIDIN;

ACTIN FILAMENT; ADSORPTION; ARTICLE; ATOMIC FORCE MICROSCOPY; BIOTINYLATION; CONTROLLED STUDY; ELECTRIC CONDUCTIVITY; ELECTRIC FIELD; FLUORESCENCE MICROSCOPY; HYDROPHILICITY; NANODEVICE; NONHUMAN; PHOTOACTIVATION; PRINTING; PRIORITY JOURNAL; RABBIT;

ACTINS; BINDING SITES; BIOTIN; BIOTINYLATION; GELSOLIN; GLASS; MICROFILAMENTS; MICROFLUIDIC ANALYTICAL TECHNIQUES; MICROSCOPY, FLUORESCENCE; MOVEMENT; MYOSINS; NANOTECHNOLOGY; PROTEIN BINDING; STREPTAVIDIN; SURFACE PROPERTIES;

EID: 79551688111     PISSN: 00219797     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jcis.2010.12.079     Document Type: Article

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