Bifurcations and Phase Transitions in Spatially Extended Two-member Hypercycles.
From: Complex Systems Lab (ICREA-UPF), Barcelona Biomedical Research Park ( PRBB-GRIB), Dr. Aiguader 88, 08003 Barcelona, Spain.
Journal of theoretical biology
- Publish Date: Dec 2006
- ISSN: 0022-5193
- Volume: 243
- Issue: 4
- Pages: 468-82
- Medium: Print
- Language: English
- Citation (JAMA): Sardanyés Josep, Solé Ricard V, et al. Bifurcations and Phase Transitions in Spatially Extended Two-member Hypercycles.. J. Theor. Biol. Dec 2006;243:468-82
Abstract
Mounting theoretical and experimental evidence indicates that the success of molecular replicators is strongly tied to the local nature of their interactions. Local dispersal in a given spatial domain, particularly on surfaces, might strongly enhance the growth and selection of fit molecules and their resistance to parasites. In this work the spatial dynamics of a simple hypercycle model consisting of two molecular species is analysed. In order to characterize it, both mean field models and stochastic, spatially explicit approaches are considered. The mean field approach predicts the presence of a saddle-node bifurcation separating a phase involving stable hypercycles from extinction, consistently with spatially explicit models, where an absorbing first-order phase transition is shown to exist and diffusion is explicitly introduced. The saddle-node bifurcation is shown to leave a ghost in the phase plane. A metapopulation-based model is also developed in order to account for the observed phases when both diffusion and reaction are considered. The role of information and diffusion as well as the relevance of these phases and the underlying spatial structures are discussed, and their potential implications for the evolution of early replicators are outlined.
Mesh Headings (Keywords): Animals, Catalysis, Cell Division, Evolution, Molecular, Models, Genetic, Stochastic Processes
Check for Full Text / PubMed Unique Identifier (PMID): 16942781
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