Biocompatible microfabrication of 3D isolation chambers for targeted confinement of individual cells and their progeny.

We describe a technique to physically isolate single/individual cells from their surrounding environment by fabricating three-dimensional microchambers around selected cells under biocompatible conditions. Isolation of targeted cells is achieved via rapid fabrication of protein hydrogels from a biocompatible precursor solution using multiphoton lithography, an intrinsically 3D laser direct write microfabrication technique. Cells remain chemically accessible to environmental cues enabling their propagation into well-defined, high density populations. We demonstrate this methodology on gram negative (E. coli), gram positive (S. aureus), and eukaryotic (S. cerevisiae) cells. The opportunities to confine viable, single/individual-cells and small populations within user-defined microenvironments afforded by this approach should facilitate the study of cell behaviors across multiple generations.