Now Reading: A Gene-Free Minimal System for Synthetic Quorum Sensing in Protocell Communities
-
01
A Gene-Free Minimal System for Synthetic Quorum Sensing in Protocell Communities
Schematic illustration of the synthetic quorum-sensing system. (a) PDDA– ATP coacervates encapsulate trypsinogen and BZAR. Upon external introduction of trypsin, an autocatalytic feedback loop activates local trypsinogen, leading to cleavage of the caged fluorogenic substrate BZAR and release of rhodamine 110. Trypsin diffuses between coacervates, enabling inter-compartment signalling. At low population density, signalling remains below threshold and produces minimal fluorescence. At high population density, autocatalytic feedback and inter-coacervate communication result in population-wide signal amplification. (b) Chemical reaction showing trypsin-mediated hydrolysis of the fluorogenic substrate BZAR to produce rhodamine 110, and the autocatalytic conversion of trypsinogen to trypsin. — chemrxiv.org
Synthetic communication networks are key to engineering life-like behaviors in artificial cells. Inspired by natural quorum sensing, we developed a coacervate-based system that exhibits quorum-sensing-like communication, driven by an autocatalytic trypsin–trypsinogen feedback loop.
These membraneless compartments enable diffusion and amplification of signaling molecules, resulting in population density–dependent collective activation analogous to natural quorum responses. At high population density, signal accumulation triggers a system-wide fluorescent response, whereas at low population density, signaling remains off.
By varying trypsin, trypsinogen, and population density, the activation threshold shifted over nearly an order of magnitude, with a fourfold acceleration in signal amplification at high population density. This gene-free platform establishes a minimal route to programmable, collective dynamics in synthetic protocell community.
A Gene-Free Minimal System for Synthetic Quorum Sensing in Protocell Communities, chemrxiv.org (open access)
Astrobiology, Genomics,
Related Posts
Stay Informed With the Latest & Most Important News
Advertisement
-
01Two Black Holes Observed Circling Each Other for the First Time -
02From Polymerization-Enabled Folding and Assembly to Chemical Evolution: Key Processes for Emergence of Functional Polymers in the Origin of Life -
03Thermodynamic Constraints On The Citric Acid Cycle And Related Reactions In Ocean World Interiors -
04Φsat-2 begins science phase for AI Earth images -
05Hurricane forecasters are losing 3 key satellites ahead of peak storm season − a meteorologist explains why it matters -
06Binary star systems are complex astronomical objects − a new AI approach could pin down their properties quickly -
07Worlds Next Door: A Candidate Giant Planet Imaged in the Habitable Zone of α Cen A. I. Observations, Orbital and Physical Properties, and Exozodi Upper Limits