Abstract
The problem of information integration andresistance to the invasion of parasitic mutants in prebiotic replicator systemsis a notorious issue of research on the origin of life.Almost all theoretical studies published so far havedemonstrated that some kind of spatial structure is indispensable forthe persistence and/or the parasite resistance of any feasible replicator system.Based on a detailed critical survey of spatial models on prebiotic informationintegration, we suggest a possible scenario for replicator system evolution leadingto the emergence of the first protocells capable of independent life.We show that even the spatial versions of the hypercycle model are vulnerable toselfish parasites in heterogeneous habitats. Contrary, the metabolic system remainspersistent and coexistent with its parasites both on heterogeneous surfaces andin chaotically mixing flowing media. Persistent metabolic parasites can beconverted to metabolic cooperators, or they can gradually obtain replicase activity.Our simulations show that, once replicase activity emerged, a gradual and simultaneousevolutionary improvement of replicase functionality (speed and fidelity) andtemplate efficiency is possible only on a surface that constrains the mobility ofmacromolecule replicators. Based on the results of the models reviewed, we suggestthat open chaotic flows (`soup') and surface dynamics (`pizza') both played keyroles in the sequence of evolutionary events ultimately concluding in theappearance of the first living cell on Earth.
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Scheuring, I., Czárán, T., Szabó, P. et al. Spatial Models of Prebiotic Evolution: Soup Before Pizza?. Orig Life Evol Biosph 33, 319–355 (2003). https://doi.org/10.1023/A:1025742505324
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DOI: https://doi.org/10.1023/A:1025742505324