Electrokinetic DNA transport in 20 nm‐high nanoslits: Evidence for movement through a wall‐adsorbed

Oscar Castillo‐Fernandez,Albert Van Den Berg,Georgette B Salieb‐Beugelaar,Jan W Van Nieuwkasteele,Josep Samitier,Jan C T Eijkel,Johan G Bomer,Martin Arundell

doi:10.1002/elps.201100278

Electrokinetic DNA transport in 20 nm‐high nanoslits: Evidence for movement through a wall‐adsorbed

Oscar Castillo‐Fernandez, Albert Van Den Berg + Show 6 more

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https://doi.org/10.1002/elps.201100278

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Journal: Electrophoresis	Publication Date: Aug 26, 2011
Citations: 21

Affiliation: University of Twente, KIST Europe, Korea Institute of Science and Technology, Institute for Bioengineering of Catalonia, University of Southampton

#New Type Of Matrix #Electrokinetic Transport + Show 8 more

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Abstract

The electrokinetic transport behavior of λ-DNA (48 kbp) in 20 nm-high fused-silica nanoslits in the presence of short-chain PVP is investigated. Mobility and video data show a number of phenomena that are typical of DNA transport through gels or polymer solutions, thus indicative of rigid migration obstacles in the DNA pathway. Calculations show that a several nanometer thin layer of wall-adsorbed PVP ('nano-gel') can provide such a rigid obstacle matrix to the DNA. Such ultrathin wall-adsorbed polymer layers represent a new type of matrix for electrokinetic DNA separation.

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