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Synthetic Vesicles for Sustainable Energy Recycling and Delivery of Building Blocks for Lipid Biosynthesis † .

Eleonora BailoniMiyer F Patiño-RuizAndreea R StanGea K Schuurman-WoltersMarten ExterkateArnold J M DriessenBert Poolman
Published in: ACS synthetic biology (2024)
ATP is a universal energy currency that is essential for life. l-Arginine degradation via deamination is an elegant way to generate ATP in synthetic cells, which is currently limited by a slow l-arginine/l-ornithine exchange. We are now implementing a new antiporter with better kinetics to obtain faster ATP recycling. We use l-arginine-dependent ATP formation for the continuous synthesis and export of glycerol 3-phosphate by including glycerol kinase and the glycerol 3-phosphate/Pi antiporter. Exported glycerol 3-phosphate serves as a precursor for the biosynthesis of phospholipids in a second set of vesicles, which forms the basis for the expansion of the cell membrane. We have therefore developed an out-of-equilibrium metabolic network for ATP recycling, which has been coupled to lipid synthesis. This feeder-utilizer system serves as a proof-of-principle for the systematic buildup of synthetic cells, but the vesicles can also be used to study the individual reaction networks in confinement.
Keyphrases
  • induced apoptosis
  • nitric oxide
  • cell cycle arrest
  • fatty acid
  • endoplasmic reticulum stress
  • amino acid
  • oxidative stress
  • molecular dynamics
  • cell proliferation
  • pi k akt
  • cell wall