AVS 65th International Symposium & Exhibition
    Industrial Physics Forum Monday Sessions
       Session IPF+AS+BI+NS-MoM

Invited Paper IPF+AS+BI+NS-MoM3
Sequential Bottom-up Assembly of Synthetic Cells

Monday, October 22, 2018, 9:00 am, Room 101B

Session: Biofabrication: From Tissue to Organ
Presenter: Joachim Spatz, Max Planck Institute for Medical Research, Germany
Correspondent: Click to Email

The evolution of cellular compartments for spatially and temporally controlled assembly of biological processes became an essential step in developing life. Synthetic approaches towards cellular-like compartments are still lacking well-controlled functionalities as would be needed for more complex synthetic cells. In part, this is due to the mechanical and chemical instabilities of the lipid-based protocells and a lack of technical means for their well-controlled manipulation. We developed droplet supported lipid bilayer vesicles by microfluidics to generate mechanically and chemically stable and, therefore, manipulable cell-like compartments with a well-defined chemical and biophysical microenvironment. The enhanced stability enabled the sequential loading of such compartments with biomolecules by pico-injection microfluidics without compromising their functionality as synthetic cells. We demonstrate a successful sequential bottom-up assembly of a compartment with lipids, transmembrane proteins (integrin, FoF1-ATP synthase) and cytoskeleton proteins which would not assemble in a fully functional way by mixing and including them in one pot at once