Add to ORKGSynthetic tissues can be generated by forming networks of aqueous droplets in lipid-containing oil. Each droplet contains a cell-free expression system and is connected to its neighbor through a lipid bilayer. In the present work, we have demonstrated precise external control of such networks by activating protein expression within single droplets, by using light-activated DNA to encode either a fluorescent or a pore-forming protein. By controlling the extent of activation, synthetic tissues were generated with graded levels of protein expression in patterns of single droplets. Further, we have demonstrated reversible activation within individual compartments in synthetic tissues by turning a fluorescent protein on-and-off. This is the firs...
We have created a 4 × 4 droplet bilayer array comprising light-activatable aqueous droplet bio-pixel...
Gene-expressing compartments are a minimal representation of living cells. By using DNA blueprints t...
Droplet microfluidics is an active multidisciplinary area of research that evolved out of the larger...
Droplet networks (synthetic tissues) comprised of aqueous droplets interfaced by bilayers show great...
In this thesis, biological activity is recreated from the bottom-up. By putting together carefully-d...
We have previously used three-dimensional (3D) printing to prepare tissue-like materials in which pi...
Living cells communicate and cooperate to produce the emergent properties of tissues. Synthetic mimi...
An aqueous droplet in a solution of lipids in oil acquires a lipid monolayer coat, and two such drop...
In this study, we introduce an optofluidic method for the rapid construction of large-area cell-size...
'Bottom-up' approaches in synthetic biology have been used to construct synthetic cells from simple ...
We have previously used three-dimensional (3D) printing to prepare tissue-like materials in which pi...
Synthetic tissues built from communicating aqueous droplets offer potential applications in biotechn...
The recent development of synthetic biology has expanded the capability to design and construct prot...
Over recent years, there has been a growing interest in the field of artificial cell development, as...
Previously, we reported the manual assembly of lipid-coated aqueous droplets in oil to form two-dime...
We have created a 4 × 4 droplet bilayer array comprising light-activatable aqueous droplet bio-pixel...
Gene-expressing compartments are a minimal representation of living cells. By using DNA blueprints t...
Droplet microfluidics is an active multidisciplinary area of research that evolved out of the larger...
Droplet networks (synthetic tissues) comprised of aqueous droplets interfaced by bilayers show great...
In this thesis, biological activity is recreated from the bottom-up. By putting together carefully-d...
We have previously used three-dimensional (3D) printing to prepare tissue-like materials in which pi...
Living cells communicate and cooperate to produce the emergent properties of tissues. Synthetic mimi...
An aqueous droplet in a solution of lipids in oil acquires a lipid monolayer coat, and two such drop...
In this study, we introduce an optofluidic method for the rapid construction of large-area cell-size...
'Bottom-up' approaches in synthetic biology have been used to construct synthetic cells from simple ...
We have previously used three-dimensional (3D) printing to prepare tissue-like materials in which pi...
Synthetic tissues built from communicating aqueous droplets offer potential applications in biotechn...
The recent development of synthetic biology has expanded the capability to design and construct prot...
Over recent years, there has been a growing interest in the field of artificial cell development, as...
Previously, we reported the manual assembly of lipid-coated aqueous droplets in oil to form two-dime...
We have created a 4 × 4 droplet bilayer array comprising light-activatable aqueous droplet bio-pixel...
Gene-expressing compartments are a minimal representation of living cells. By using DNA blueprints t...
Droplet microfluidics is an active multidisciplinary area of research that evolved out of the larger...