Competition and cooperation in catalytic selfreplication
From MaRDI portal
Publication:1147092
DOI10.1007/BF00275439zbMath0448.92011OpenAlexW1995611015WikidataQ57253897 ScholiaQ57253897MaRDI QIDQ1147092
Josef Hofbauer, Karl Sigmund, Peter Schuster
Publication date: 1981
Published in: Journal of Mathematical Biology (Search for Journal in Brave)
Full work available at URL: https://eudml.org/doc/136906
competitionflow reactorcooperationcatalytic selfreplicationconcentration simplexhypercyclic coupling of self-reproducing macromolecular species
Chemical kinetics in thermodynamics and heat transfer (80A30) Dynamical systems and ergodic theory (37-XX) Physiological, cellular and medical topics (92Cxx) Chemistry (92Exx)
Related Items
Evolutionary stable strategies: A review of basic theory, Lyapunov function method for the analysis of dissipative autonomous dynamic processes, Full characterization of a strange attractor. Chaotic dynamics in low- dimensional replicator systems, Repelling conditions for boundary sets using Lyapunov-like functions. II: Persistence and periodic solutions, Autocatalytic networks with intermediates. I: Irreversible reactions, Permanence of sparse catalytic networks, A general cooperation theorem for hypercycles, Parasites at the origin of life, Mutation in autocatalytic reaction networks. An analysis based on perturbation theory, An introduction to \textit{ABED}: agent-based simulation of evolutionary game dynamics, The probability of permanence, Dynamical machinery of a biochemical clock, Uniformly Persistent Semidynamical Systems, Autocatalytic Networks: An Intimate Relation between Network Topology and Dynamics, A permanence theorem for local dynamical systems
Cites Work
- On the theory of selection of coupled macromolecular systems
- Dynamical systems under constant organization. I: Topological analysis of a family of non-linear differential equations - a model for catalytic hypercycles
- Evolutionarily stable strategies and game dynamics
- On Eigen's theory of the self-organization of matter and the evolution of biological macromolecules
- Unnamed Item
- Unnamed Item
