Detection of mRNA from Escherichia coli in drinking water on nanostructured polymeric surfaces using liquid crystals

Colloid and Polymer Science, May 2014, Volume 292, Issue 5, pp 1163-1169.

So-Jung Park, Junhong Min, Qiong-Zheng Hu, Chang-Hyun Jang.

Department of Chemistry, Gachon University, Seongnam-Si, Gyeonggi-Do, 461-701, South Korea and

School of Integrative Engineering, Chung-Ang University, Dongjak-Gu, Seoul, 156-756, South Korea.

 

Abstract

 

In this study, we demonstrate the detection of mRNA from Escherichia coli in drinking water using thermotropic liquid crystals (LCs). After hybridization of complementary mRNA with the single-stranded DNA immobilized on a polymer substrate containing periodic sinusoidal wave patterns, the orientation of LCs transits from a uniform to a non-uniform state, thereby inducing a change in the optical response of LCs. The periodic sinusoidal features of the polymer substrate are obtained through buckling the poly-(dimethylsiloxane) slide on a cylindrical surface, followed by replicating the associated relief structures on a poly-(urethaneacrylate) surface, where a film of gold was deposited. Then, thiol-modified single-stranded DNA was functionalized on the gold film as an mRNA receptor. The formation of mRNA–single-stranded DNA complex, which covers the sinusoidal nanostructures on the surface, induces the orientational transition of LCs. This result indicates that LCs can be used to report the specific hybridization of mRNA with single-stranded DNA, which holds promise for the sensitive and label-free detection of viable bacterial pathogens in drinking water.

 

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mRNA from Escherichia coli

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