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CeNS Colloquium

Kleiner Physik-Hörsaal N 020, Fakultät für Physik
Date: 14.06.2019, Time: 15:30h

Synthetic cells: Bottom-up assembly with DNA nanotechnology and microfluidics

Dr. Kerstin Göpfrich, MPI for Medical Research

Bottom-up synthetic biology has been successful at isolating components from cells and reconstituting subcellular functions inside compartments. Progress towards a fully functional synthetic cell, however, requires strategies to recombine and arrange a multitude of components in space and time. We therefore propose to merge two precision technologies, namely microfluidics and DNA nanotechnology, to position and manipulate components in synthetic cells [1,2]. In particular, we demonstrate that DNA can be used as a near-universal linker for responsive and programmable compartment functionali-zation. Our method relies on the self-assembly of single-stranded cholesterol-tagged DNA handles, which provide an addressable anchoring point for complementary DNA carrying an arbitrary functional group. Using this DNA handle approach, we demonstrate the stimuli-responsive attachment of reactive groups, DNA nanostructures, microspheres, an actin cortex and even living cells to the periphery of surfactant-stabilized microfluidic droplets [3]. We further employ DNA to construct functional components, including a pH-responsive DNA-based cytoskeleton mimic, which serves as a stabilizing cortex inside synthetic cells.

[1] K. Göpfrich*, I. Platzman* & J. P. Spatz*, Mastering Complexity: Towards Bottom-up Construction of Multifunctional Eukaryotic Synthetic Cells, Trends in Biotechnology 36, 938–951 (2018).
[2] B. Haller, K. Göpfrich, M. Schröter, J. W. Janiesch, I. Platzman* & J. P. Spatz*, Charge-controlled microfluidic formation of lipid-based single-and multicompartment systems, Lab on a Chip 18, 2665–2674 (2018).
[3] K. Jahnke, M. Weiss, C. Frey, S. Antona, J.-W. Janiesch, I. Platzman, K. Göpfrich* & J. P. Spatz*, Programmable Functionalization of Surfactant-Stabilized Microfluidic Droplets via DNA-Tags, Advanced Functional Materials, doi.org/10.1002/adfm.201808647 (2019).