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Anti-fouling characteristics of surface-confined oligonucleotide strands bioconjugated on streptavidin platforms in the presence of nanomaterials


Reference:

Mir, M., Cameron, P. J., Zhong, X. H., Azzaroni, O., Alvarez, M. and Knoll, W., 2009. Anti-fouling characteristics of surface-confined oligonucleotide strands bioconjugated on streptavidin platforms in the presence of nanomaterials. Talanta, 78 (3), pp. 1102-1106.

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Official URL:

http://dx.doi.org/10.1016/j.talanta.2009.01.026

Abstract

This work describes our studies on the molecular design of interfacial architectures suitable for DNA sensing which could resist non-specific binding of nanomaterials commonly used as labels for amplifying biorecognition events. We observed that the non-specific binding of bio-nanomaterials to surface-confined oligonucleotide strands is highly dependent on the characteristics of the interfacial architecture. Thiolated double stranded oligonucleotide arrays assembled on Au surfaces evidence significant fouling in the presence of nanoparticles (NPs) at the nanomolar level. The non-specific interaction between the oligonucleotide strands and the nanomaterials can be sensitively minimized by introducing streptavidin (SAv) as an underlayer conjugated to the DNA arrays. The role of the SAv layer was attributed to the significant hydrophilic repulsion between the SAv-modified surface and the nanomaterials in close proximity to the interface, thus conferring outstanding anti-fouling characteristics to the interfacial architecture. These results provide a simple and straightforward strategy to overcome the limitations introduced by the non-specific binding of labels to achieve reliable detection of DNA-based biorecognition events.

Details

Item Type Articles
CreatorsMir, M., Cameron, P. J., Zhong, X. H., Azzaroni, O., Alvarez, M. and Knoll, W.
DOI10.1016/j.talanta.2009.01.026
Uncontrolled Keywordssurface acoustic wave (saw), dna biosensor, non-specific binding, thiol-biotin, surface plasmon resonance (spr), anti-fouling, cdse nanoparticles, quantum dots (qds), streptavidin sam, surface plasmon fluorescence spectroscopy (spfs)
DepartmentsFaculty of Science > Chemistry
RefereedYes
StatusPublished
ID Code14196

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