Abstract

Graded distributions of proteins are pivotal for many signaling processes during development, such as morphogenesis, cell migration, and axon guidance. Here, we describe a technique to fabricate substrate-bound stepwise protein gradients by means of a microfluidic network etched into a silicon wafer with an array of parallel 14-micrometer-wide channels, which can be filled with a series of arbitrarily chosen protein solutions. In a subsequent microcontact printing step, the protein pattern is transferred onto a surface and is used as a substrate for cell culture. Cellular responses to a defined microscopic pattern of a protein, such as guided axonal outgrowth and directed migration, cell polarization, changes in morphology, and signaling, can be thus studied in a controlled in vitro environment.