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The structure of autocatalytic networks, with application to early biochemistry

Mike Steel, Joana C. Xavier, Daniel H. Huson

2020Journal of The Royal Society Interface21 citationsDOIOpen Access PDF

Abstract

Metabolism across all known living systems combines two key features. First, all of the molecules that are required are either available in the environment or can be built up from available resources via other reactions within the system. Second, the reactions proceed in a fast and synchronized fashion via catalysts that are also produced within the system. Building on early work by Stuart Kauffman, a precise mathematical model for describing such self-sustaining autocatalytic systems (RAF theory) has been developed to explore the origins and organization of living systems within a general formal framework. In this paper, we develop this theory further by establishing new relationships between classes of RAFs and related classes of networks, and developing new algorithms to investigate and visualize RAF structures in detail. We illustrate our results by showing how it reveals further details into the structure of archaeal and bacterial metabolism near the origin of life, and provide techniques to study and visualize the core aspects of primitive biochemistry.

Topics & Concepts

Living systemsComputer scienceKey (lock)Core (optical fiber)AutocatalysisAbiogenesisSystems biologyTheoretical computer scienceComputational biologyArtificial intelligenceChemistryBiologyAstrobiologyBiochemistryCatalysisComputer securityTelecommunicationsOrigins and Evolution of LifeProtein Structure and DynamicsPhotoreceptor and optogenetics research