Add to ORKGThe spontaneous assembly of micro-compartmentalized colloidal objects capable of controlled interactions offers a step towards rudimentary forms of collective behaviour in communities of artificial cell-like entities (synthetic protocells). Here we report a primitive form of artificial phagocytosis in a binary community of synthetic protocells in which multiple silica colloidosomes are selectively ingested by self-propelled magnetic Pickering emulsion (MPE) droplets comprising particle-free fatty acid-stabilized apertures. Engulfment of the colloidosomes enables selective delivery and release of water-soluble payloads, and can be coupled to enzyme activity within the MPE droplets. Our results highlight opportunities for the development of n...
Abstract As the preliminary synthetic analogs of living cells, protocells with life‐like features se...
A systemic feature of eukaryotic cells is the spatial organization of functional components through ...
Fabrication of compartmentalised chemical systems with nested architectures and biomimetic propertie...
Controlling the dynamics of mixed communities of cell-like entities (protocells) provides a step tow...
Although several strategies are now available to produce functional microcompartments analogous to p...
A living system profoundly relies on mass, information and energy interactions through cell-cell and...
Fabrication of compartmentalised chemical systems with nested architectures and biomimetic propertie...
Silica nanoparticles with a balance of hydrophilic and hydrophobic surface properties exhibit surfac...
Artificial cell-like communities participate in diverse modes of chemical interaction but exhibit mi...
Reconstitution and simulation of cellular motility in microcompartmentalized colloidal objects have ...
Despite the low complexity of their components, several simple physical systems, including microsphe...
Despite the low complexity of their components, several simple physical systems, including microsphe...
Complex coacervate microdroplets are finding increased utility in synthetic cell applications due to...
Constructing a cell mimic is a major challenge posed by synthetic biologists. Efforts to this end ha...
Abstract As the preliminary synthetic analogs of living cells, protocells with life‐like features se...
A systemic feature of eukaryotic cells is the spatial organization of functional components through ...
Fabrication of compartmentalised chemical systems with nested architectures and biomimetic propertie...
Controlling the dynamics of mixed communities of cell-like entities (protocells) provides a step tow...
Although several strategies are now available to produce functional microcompartments analogous to p...
A living system profoundly relies on mass, information and energy interactions through cell-cell and...
Fabrication of compartmentalised chemical systems with nested architectures and biomimetic propertie...
Silica nanoparticles with a balance of hydrophilic and hydrophobic surface properties exhibit surfac...
Artificial cell-like communities participate in diverse modes of chemical interaction but exhibit mi...
Reconstitution and simulation of cellular motility in microcompartmentalized colloidal objects have ...
Despite the low complexity of their components, several simple physical systems, including microsphe...
Despite the low complexity of their components, several simple physical systems, including microsphe...
Complex coacervate microdroplets are finding increased utility in synthetic cell applications due to...
Constructing a cell mimic is a major challenge posed by synthetic biologists. Efforts to this end ha...
Abstract As the preliminary synthetic analogs of living cells, protocells with life‐like features se...
A systemic feature of eukaryotic cells is the spatial organization of functional components through ...
Fabrication of compartmentalised chemical systems with nested architectures and biomimetic propertie...