Abstract

Here, we review the recent progress in the characterisation and utilisation of coacervates as protocell models in the origin of life studies. We provide evidence that coacervation could have played a unique role during the origin of life, based on its ability to form from a range of different prebiotically relevant molecules; partition solutes; support and alter RNA catalysis and readily deform its shape. We discuss how these properties could have been important for the formation of the first membrane-bound cells, supporting RNA-peptide evolution and primitive metabolism, and in replicating and proliferating by growth and division processes.