1 research outputs found
Isoelectric Focusing in a Silica Nanofluidic Channel: Effects of Electromigration and Electroosmosis
Isoelectric
focusing of proteins in a silica nanofluidic channel
filled with citric acid and disodium phosphate buffers is investigated
via numerical simulation. Ions in the channel migrate in response
to (i) the electric field acting on their charge and (ii) the bulk
electroosmotic flow (which is directed toward the cathode). Proteins
are focused near the low pH (anode) end when the electromigration
effect is more significant and closer to the high pH (cathode) end
when the electroosmotic effect dominates. We simulate the focusing
behavior of Dylight labeled streptavidin (Dyl-Strep) proteins in the
channel, using a relationship between the protein’s charge
and pH measured in a previous experiment. Protein focusing results
compare well to previous experimental measurements. The effect of
some key parameters, such as applied voltage, isoelectric point (pI),
bulk pH, and bulk conductivity, on the protein trapping behavior in
a nanofluidic channel is examined