To test the DiaCHIP under real-life conditions, we wanted to analyze the blood serum of a vaccinated person for the presence of anti-Tetanus antibodies. Blood from the same person was taken before vaccination and served as negative control. The corresponding antigen TeNT_Hc was expressed in E. coli, purified by His tag based affinity purification and spotted on a specific Ni-NTA surface.
Applying the sample taken three weeks after vaccination to the DiaCHIP resulted in a significant signal at the antigen spot, whereas no signal was obtained with the sample assumed to be negative. But convince yourself how great the DiaCHIP performed. The video on the right shows these measurements right next to each other in real-time.
Besides tetanus, some other antigens of immunological relevance were taken into account. See all the results we obtained in terms of diagnostics, including an approach for quantification of the measurements.

The measuring device we used in collaboration with the AG Roth (ZBSA) to detect antibody binding events is a really expensive machine, but the physics which it is based on is rather simple. To enable future iGEM teams to profit from this label-free detection method as we did, a cost-efficient and easy to rebuild variant of the device was developed (figure 3A). Figure 3B shows the binding of anti-GFP to GFP as it was established before, measured with our own device.
Look here, to see how you can build your own device for label-free detection of antibody binding on a protein microarray needing two lenses, a camera and a little bit of fine feeling (??).