DNA-based communication in populations of synthetic protocells
- Alex Joesaar ,
- Shuo Yang ,
- Bas Bögels ,
- Ardjan van der Linden ,
- Pascal Pieters ,
- B. V. V. S. Pavan Kumar ,
- Neil Dalchau ,
- Andrew Phillips ,
- Stephen Mann ,
- Tom F. A. de Greef
Nature Nanotechnology |
Developing molecular communication platforms based on orthogonal communication channels is a crucial step towards engineering artificial multicellular systems. Here, we present a general and scalable platform entitled ‘biomolecular implementation of protocellular communication’ (BIO-PC) to engineer distributed multichannel molecular communication between populations of non-lipid semipermeable microcapsules. Our method leverages the modularity and scalability of enzyme-free DNA strand-displacement circuits to develop protocellular consortia that can sense, process and respond to DNA-based messages. We engineer a rich variety of biochemical communication devices capable of cascaded amplification, bidirectional communication and distributed computational operations. Encapsulating DNA strand-displacement circuits further allows their use in concentrated serum where non-compartmentalized DNA circuits cannot operate. BIO-PC enables reliable execution of distributed DNA-based molecular programs in biologically relevant environments and opens new directions in DNA computing and minimal cell technology.