posted on 2021-03-08, 14:07authored byXing-Yuan Du, Shao-Hua Wu, Xiao-Bin Huang, Jian-Jun Sun
Surface-enhanced
Raman scattering (SERS)-based biosensing has strong
potential owing to its high sensitivity and good selectivity. In this
study, a SERS biosensing platform for microRNA-21 detection was proposed
by combining heating-enhanced duplex-specific nuclease (DSN)-assisted
target recycling amplification and silver nanocube (AgNC)-based SERS
enhancement. The activity of DSN was greatly enhanced by increasing
the surface temperature of a heated Au electrode (HAuE) during the
DSN-assisted target recycling process, resulting in dramatic miRNA-21
amplification detection. 4-Mercaptobenzoic acid (4-MBA) acting as
a Raman reporter was immobilized onto the surface of AgNC to form
a AgNC/4-MBA SERS tag with AgNC providing significantly larger electric
field enhancement and thus excellent SERS applications compared with
conventional silver or gold nanospheres. This enhancement was attributed
to the well-known “lighting rod” effect derived from
the sharp geometrical feature of the edges and corners of AgNCs. These
factors lead to the high sensitivity of the proposed SERS biosensor
for the miRNA-21 measurement. A limit of detection of 2.88 fM (S/N
= 3) was achieved at an electrode temperature of 55 °C, which
was decreased by more than three magnitudes compared with that at
25 °C.