Signaling Proteins. Patterned substrates can be used for the study of fundamental phenomena and advance important applications.  Stem cell, cancer, neuroscience, and tissue engineering can benefit from the Nano eNabler technology.  The printer can be used to deliver small volumes of protein solution (10-15 – 10-18) through a direct writing process, at a high speed of ~100 ms/droplet.  Usage of spots of ECM proteins to anchor a cell in place while an adjacent spot of a signaling protein induces a signal transduction cascade within the cell.

Stem Cells. Researchers can print spots of signaling proteins to create a microenvironment that could direct the differentiation or proliferation of a single cell.  Using the Nano eNabler system, it would be possible to create gradients of spots/lines on a surface to study cell migration.

Precision of printing.  Computer controlled translation allows arbitrary patterns of spots to be written to a surface.  Multiplexing allows the deposition of multi-component patterns thus enabling the study of compositionally complex signaling.  The method is non-destructive, thus preserving the protein function.

Multiple surfaces.  The Nano eNabler system can be used with surfaces ranging from glass to polymers.  Validated surfaces include: glass, silanes, silicon, gold, alkanethiol SAMs, polymers, hydrogel, PDMS, nitrocellulose.  Both flat and 3D surfaces can be patterned, the latter playing sometime a critical role in cell differentiation.