Issue 7, 2018

Self-standing aptamers by an artificial defect-rich matrix

Abstract

The classical alkanethiol post-passivation can prevent nonspecific binding of nucleotide bases onto supporting substrates and help aptamers transition from a “lying down” to a “standing up” orientation. However, the surface probes display lower binding affinity towards targets than those in bulk solutions due to unsatisfied hybridization spaces on the alkanethiol passivated substrate. To overcome this challenge, an artificial defect-rich matrix possessing an aptamer “self-standing” property created by chemical lift-off lithography (CLL) is demonstrated. This approach provided artificial defects on a hydroxyl-terminated alkanethiol self-assembled monolayer (SAM), which allowed the insertion of thiolated aptamers. The diluted surface molecular environment assisted aptamers not only to “self-stand” on the surface, but also to separate from each other, providing a suitable surface aptamer density and sufficient space for capturing targets. With this approach, the binding affinity of the aptamer towards a target was comparable to solution-type probes, showing higher recognition efficiency than that in conventional methods.

Graphical abstract: Self-standing aptamers by an artificial defect-rich matrix

Supplementary files

Article information

Article type
Paper
Submitted
04 Oct 2017
Accepted
12 Jan 2018
First published
12 Jan 2018

Nanoscale, 2018,10, 3191-3197

Self-standing aptamers by an artificial defect-rich matrix

C. Chen, C. Wang, P. Chen and W. Liao, Nanoscale, 2018, 10, 3191 DOI: 10.1039/C7NR07381J

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