posted on 2012-04-17, 00:00authored byJiayun Zhang, Hans Peter Lang, Genki Yoshikawa, Christoph Gerber
The accessibility and binding affinity of DNA are two
key parameters
affecting the hybridization efficiency in surface-based biosensor
technologies. Better accessibility will result in a higher hybridization
efficiency. Often, mixed ssDNA and mercaptohexanol monolayers are
used to increase the hybridization efficiency and accessibility of
surface-bound oligonucleotides to complementary target DNA. Here,
no mercaptohexanol monolayer was used. We demonstrate by differential
microcantilever deflection measurements at different pH that the hybridization
efficiency peaks between pH 7.5 and 8.5. At low pH 4.5, hydration
and electrostatic forces led to tensile surface stress, implying the
reduced accessibility of the bound ssDNA probe for hybridization.
In contrast, at high pH 8.5, the steric interaction between neighboring
ssDNA strands was decreased by higher electrostatic repulsive forces,
bending the microcantilever away from the gold surface to provide
more space for the target DNA. Cantilever deflection scales with pH-dependent
surface hybridization efficiency because of high target DNA accessibility.
Hence, by changing the pH, the hybridization efficiency is adjusted.