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Journal article

Use of PLL-g-PEG in micro-fluidic devices for localizing selective and specific protein binding

In Langmuir 2006, Volume 22, Issue 24, pp. 10103-10108

By Marie, Rodolphe1; Beech, Jason P; Vörös, Janos; Tegenfeldt, Jonas O; Höök, Fredrik

From

Division of Solid State Physics, Lund University, P.O. Box 118, SE-221 00, Lund, Sweden.1

By utilizing flow-controlled PLL-g-PEG and PLL-g-PEGbiotin modification of predefined regions of a poly(dimethylsiloxane) (PDMS) micro-fluidic device, with an intentionally chosen large (approximately 1 cm2) internal surface area, we report rapid (10 min), highly localized (6 x 10(-6) cm2), and specific surface-based protein capture from a sample volume (100 microL) containing a low amount of protein (160 attomol in pure buffer and 400 attomol in serum).

The design criteria for this surface modification were achieved using QCM-D (quartz crystal microbalance with energy dissipation monitoring) of serum protein adsorption onto PLL-g-PEG-modified oxidized PDMS. Equally good, or almost as good, results were obtained for oxidized SU-8, Topas, and poly(methyl metacrylate) (PMMA), demonstrating the generic potential of PLL-g-PEG for surface modification in various micro-fluidic applications.

Language: English
Year: 2006
Pages: 10103-10108
ISSN: 15205827 and 07437463
Types: Journal article
DOI: 10.1021/la060198m
Keywords

Adsorption Biotin Crystallization Dimethylpolysiloxanes Dose-Response Relationship, Drug Microfluidics Microscopy, Fluorescence Models, Chemical Polyethylene Glycols Polylysine Polymers Propylene Glycol Protein Binding Silicones Streptavidin Surface Properties baysilon

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