Add to ORKGDeveloping a mathematical understanding of autocatalysis in reaction networks has both theoretical and practical implications. We review definitions of autocatalytic networks and prove some properties for minimal autocatalytic subnetworks (MASs). We show that it is possible to classify MASs in equivalence classes, and develop mathematical results about their behavior. We also provide linear-programming algorithms to exhaustively enumerate them and a scheme to visualize their polyhedral geometry and combinatorics. We then define cluster chemical reaction networks, a framework for coarse-graining real chemical reactions with positive integer conservation laws. We find that the size of the list of minimal autocatalytic subnetworks in a maximal...
Open Access PublikationTheoretical investigations of autocatalytic sets rendered the occurrence of s...
Autocatalysis is essential for the origin of life and chemical evolution. However, the lack of a uni...
<div><p>Large molecules such as proteins and nucleic acids are crucial for life, yet their primordia...
Self-sustaining autocatalytic networks play a central role in living systems, from metabolism at the...
Background: A classical problem in metabolic design is to maximize the production of desired compoun...
Background: A classical problem in metabolic design is to maximize the production of a desired compo...
The emergence of autocatalytic sets of molecules seems to have played an important role in the origi...
We determine conditions under which a random biochemical system is likely to contain a subsystem th...
Background: Autocatalytic sets are often considered a necessary (but not sufficient) condition for t...
The notions of collective autocatalysis and of autopoiesis are clearly related; equally clearly, the...
Self-sustaining autocatalytic chemical networks represent a necessary, though not sufficient conditi...
Background: A central unsolved problem in early evolution concerns self-organization towards higher ...
A central question in origins of life research is how non-entailed chemical processes, which simply ...
Autocatalysis is a fundamental concept, used in a wide range of domains. From the most general defin...
The emergence of autocatalytic sets of molecules seems to have played an important role in the orig...
Open Access PublikationTheoretical investigations of autocatalytic sets rendered the occurrence of s...
Autocatalysis is essential for the origin of life and chemical evolution. However, the lack of a uni...
<div><p>Large molecules such as proteins and nucleic acids are crucial for life, yet their primordia...
Self-sustaining autocatalytic networks play a central role in living systems, from metabolism at the...
Background: A classical problem in metabolic design is to maximize the production of desired compoun...
Background: A classical problem in metabolic design is to maximize the production of a desired compo...
The emergence of autocatalytic sets of molecules seems to have played an important role in the origi...
We determine conditions under which a random biochemical system is likely to contain a subsystem th...
Background: Autocatalytic sets are often considered a necessary (but not sufficient) condition for t...
The notions of collective autocatalysis and of autopoiesis are clearly related; equally clearly, the...
Self-sustaining autocatalytic chemical networks represent a necessary, though not sufficient conditi...
Background: A central unsolved problem in early evolution concerns self-organization towards higher ...
A central question in origins of life research is how non-entailed chemical processes, which simply ...
Autocatalysis is a fundamental concept, used in a wide range of domains. From the most general defin...
The emergence of autocatalytic sets of molecules seems to have played an important role in the orig...
Open Access PublikationTheoretical investigations of autocatalytic sets rendered the occurrence of s...
Autocatalysis is essential for the origin of life and chemical evolution. However, the lack of a uni...
<div><p>Large molecules such as proteins and nucleic acids are crucial for life, yet their primordia...