Mapping molecular adhesion sites inside SMIL coated capillaries using atomic force microscopy recognition imaging
Michael Leitner, Lorenz G. Stock, Lukas Traxler, Laurent Leclercq, Klaus Bonazza, Gernot Friedbacher, Hervé Cottet, Hanno Stutz, Andreas Ebner
Abstract:
Capillary zone electrophoresis (CZE) is a powerful analytical technique for fast and efficient separation of different analytes ranging from small inorganic ions to large proteins. However electrophoretic resolu-tion significantly depends on the coating of the inner capillary surface. High technical efforts like Suc-cessive Multiple Ionic Polymer Layer (SMIL) generation have been taken to develop stable coatings with switchable surface charges fulfilling the requirements needed for optimal separation. Although the performance can be easily proven in normalized test runs, characterization of the coating itself remains challenging. Atomic force microscopy (AFM) allows for topographical investigation of biological and analytical relevant surfaces with nanometer resolution and yields information about the surface roughness and homogeneity. Upgrading the scanning tip to a molecular biosensor by adhesive molecules (like partly inverted charged molecules) allows for performing topography and recognition imaging (TREC). As a result, simultaneously acquired sample topography and adhesion maps can be recorded. We optimized this technique for electrophoresis capillaries and investigated the charge distribution of differently composed and treated SMIL coatings. By using the positively charged protein avidin as a single molecule sensor, we compared these SMIL coatings with respect to negative charges, resulting in adhesion maps with nanometer resolution. The capability of TREC as a functional investigation technique at the nanoscale was successfully demonstrated.
The open access article can be found  here.

Reviewed by Hans Brandstetter