Litcius/Paper detail

Cyclophospholipids Enable a Protocellular Life Cycle

Ö. Duhan Toparlak, Lorenzo Sebastianelli, Veronica Egas Ortuno, Megha Karki, Yanfeng Xing, Jack W. Szostak, Ramanarayanan Krishnamurthy, Sheref S. Mansy

2023ACS Nano26 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide There is currently no plausible path for the emergence of a self-replicating protocell, because prevalent formulations of model protocells are built with fatty acid vesicles that cannot withstand the concentrations of Mg 2+ needed for the function and replication of nucleic acids. Although prebiotic chelates increase the survivability of fatty acid vesicles, the resulting model protocells are incapable of growth and division. Here, we show that protocells made of mixtures of cyclophospholipids and fatty acids can grow and divide in the presence of Mg 2+ -citrate. Importantly, these protocells retain encapsulated nucleic acids during growth and division, can acquire nucleotides from their surroundings, and are compatible with the nonenzymatic extension of an RNA oligonucleotide, chemistry needed for the replication of a primitive genome. Our work shows that prebiotically plausible mixtures of lipids form protocells that are active under the conditions necessary for the emergence of Darwinian evolution.

Topics & Concepts

ProtocellBiologyAbiogenesisNucleic acidArtificial cellNucleotideBiochemistryGeneticsGeneMembraneOrigins and Evolution of LifeRNA and protein synthesis mechanismsPhotoreceptor and optogenetics research