Acceleration of Lipid Reproduction by Emergence of Microscopic Motion

Abstract: <p>Self-reproducing chemical systems are essential for organic matter to reproduce, move and grow. In artificial settings, chemical reactions can show rich dynamics and auto-catalytic characteristics, however achieving higher order functionality from self-reproducing chemical systems remains a current challenge. Here, we show that <a></a><a>self-reproducing lipids can initiate, sustain and accelerate the movement of microscopic oil droplets in water and, in return, the chemotactic movem… Show more

“…In a solution of trans-Azo, the droplets move in all directions autonomously (Figure 2A), provided that the concentration of the Azo amphiphile is above a concentration that we call critical propulsion concentration 37 (CPCtrans = 0.8 mM), which is typically higher than the critical micellar concentration (CMCtrans = 0.5 mM). We found that increasing the concentration of trans-Azo amphiphile leads to an increase in the average speed of the oil droplets because the concentration of micelles that fuel motility increases with the concentration of switch (Figure 2B).…”

Run-and-Halt Behavior of Motile Droplets in Response to Light

“…In a solution of trans-Azo, the droplets move in all directions autonomously (Figure 2A), provided that the concentration of the Azo amphiphile is above a concentration that we call critical propulsion concentration 37 (CPCtrans = 0.8 mM), which is typically higher than the critical micellar concentration (CMCtrans = 0.5 mM). We found that increasing the concentration of trans-Azo amphiphile leads to an increase in the average speed of the oil droplets because the concentration of micelles that fuel motility increases with the concentration of switch (Figure 2B).…”

Run-and-Halt Behavior of Motile Droplets in Response to Light