posted on 2016-02-19, 14:15authored byPatrick
S. Noonan, Richard H. Roberts, Daniel K. Schwartz
Aptamer-ligand
binding events, involving small molecule targets,
at a surfactant-laden aqueous/liquid crystal (LC) interface were found
to trigger a LC reorientation that can be observed in real-time using
polarized light. The response was both sensitive and selective: reorientation
was observed at target concentrations on the order of the aptamer
dissociation constant, but no response was observed in control experiments
with target analogues. Circular dichroism and resonance energy transfer
experiments suggested that the LC reorientation was due to a conformational
change of the aptamer upon target binding. Specifically, under conditions
where aptamer-ligand binding induced a conformational change from
a relaxed random coil to more intricate secondary structures (e.g.,
double helix, G-quadruplex), a transition from planar to homeotropic
LC orientation was observed. These observations suggest the potential
for a label-free LC-based detection system that can simultaneously
respond to the presence of both small molecules and nucleic acids.