Independent Blue and Red Light Triggered Narcissistic Self-Sorting Self-Assembly of Colloidal Particles.

The ability of living systems to self-sort different cells into separate assemblies and the ability to independently regulate different structures are one ingredient that gives rise to their spatiotemporal complexity. Here, this self-sorting behavior is replicated in a synthetic system with two types of colloidal particles; where each particle type independently self-assembles either under blue or red light into distinct clusters, known as narcissistic self-sorting. For this purpose, each particle type is functionalized either with the light-switchable protein VVDHigh or Cph1, which homodimerize under blue and red light, respectively.

Independent Control over Multiple Cell Types in Space and Time Using Orthogonal Blue and Red Light Switchable Cell Interactions.

Independent control over multiple cell-material interactions with high spatiotemporal resolution is a key for many biomedical applications and understanding cell biology, as different cell types can perform different tasks in a multicellular context. In this study, the binding of two different cell types to materials is orthogonally controlled with blue and red light providing independent regulation in space and time. Cells expressing the photoswitchable protein cryptochrome 2 (CRY2) on cell surface bind to N-truncated CRY-interacting basic helix-loop-helix protein 1 (CIBN)-immobilized substrates under blue light and cells expressing the photoswitchable protein phytochrome B (PhyB ) on cell surface bind to phytochrome interaction factor 6 (PIF6)-immobilized substrates under red light, respectively.