2 research outputs found
Mechanism of Label-Free DNA Detection Using the Floating Electrode on Pentacene Thin Film Transistor
The
analysis of DNA in the posthuman genome project era has become
an ever-expanding branch of research and is thus routinely employed
in the majority of biochemical laboratories. This work discusses the
mechanism and label-free detection of DNA using a pentacene thin film
transistor with a gold floating electrode on the active layer. Thiolated
polynucleotide probes were used, which form self-aligned monolayers
on the floating electrode over the pentacene active layer. The immobilization
of the DNA on floating electrode increased the work function and raised
the Schottky barrier of the device, resulting in a charge screening
effect. Hence, the negative charge of the DNA caused a positive shift
in the threshold voltage of the transistor. Based on the change in
the electrical output, synthesized DNA and the viral DNA were detected
Homogeneous Electrochemical Assay for Protein Kinase Activity
Herein,
we report a homogeneous assay for protein kinase activity
using an electrochemistry-based probe. The approach involves a peptide
substrate conjugated with a redox tag and the phosphate-specific receptor
immobilized on an electrode surface. The peptide substrate phosphorylated
by a protein kinase binds to the receptor site of the probe, which
results in a redox current under voltammetric measurement. Our method
was successfully applied even in the presence of citrated human blood
and modified to enable a single-use, chip-based electrochemical assay
for kinase activity