Modern cells embody metabolic networks containing thousands of elements and form autocatalytic sets of molecules that produce copies of themselves. How the first self-sustaining metabolic networks arose at life\u27s origin is a major open question. Autocatalytic sets smaller than metabolic networks were proposed as transitory intermediates at the origin of life, but evidence for their role in prebiotic evolution is lacking. Here, we identify reflexively autocatalytic food-generated networks (RAFs)-self-sustaining networks that collectively catalyse all their reactions-embedded within microbial metabolism. RAFs in the metabolism of ancient anaerobic autotrophs that live from
Self-sustaining autocatalytic networks play a central role in living systems, from metabolism at the...
Metabolism constitutes the core chemistry of life. How it began on the early Earth and whether it ha...
The idea that chemical evolution led to the origin of life is not new, but still leaves open the que...
Life and the genetic code are self-referential and so are autocatalytic networks made of simpler, sm...
Life and the genetic code are self-referential and so are autocatalytic networks made of simpler, sm...
Background: A central unsolved problem in early evolution concerns self-organization towards higher ...
How could complex, enzyme- or ribozyme-like molecules first have arisen on planet Earth? Several aut...
Background If chemical A is necessary for the synthesis of more chemical A, then A has the power ...
Life is that which replicates and evolves, but there is no consensus on how life emerged. We advocat...
Metabolism is executed by an efficient, interconnected and ancient biochemical system, the metabolic...
Metabolic networks perform some of the most fundamental functions in living cells, including energy ...
The heterotrophic theory of the origin of life is the only proposal available with experimental supp...
A prebiotic origin of metabolism has been proposed as one of several scenarios for the origin of lif...
How life emerged is a mystery, but theories have advanced remarkably in the last century. Research h...
The biochemistry of all living organisms uses complex, enzyme-catalyzed metabolic reaction networks....
Self-sustaining autocatalytic networks play a central role in living systems, from metabolism at the...
Metabolism constitutes the core chemistry of life. How it began on the early Earth and whether it ha...
The idea that chemical evolution led to the origin of life is not new, but still leaves open the que...
Life and the genetic code are self-referential and so are autocatalytic networks made of simpler, sm...
Life and the genetic code are self-referential and so are autocatalytic networks made of simpler, sm...
Background: A central unsolved problem in early evolution concerns self-organization towards higher ...
How could complex, enzyme- or ribozyme-like molecules first have arisen on planet Earth? Several aut...
Background If chemical A is necessary for the synthesis of more chemical A, then A has the power ...
Life is that which replicates and evolves, but there is no consensus on how life emerged. We advocat...
Metabolism is executed by an efficient, interconnected and ancient biochemical system, the metabolic...
Metabolic networks perform some of the most fundamental functions in living cells, including energy ...
The heterotrophic theory of the origin of life is the only proposal available with experimental supp...
A prebiotic origin of metabolism has been proposed as one of several scenarios for the origin of lif...
How life emerged is a mystery, but theories have advanced remarkably in the last century. Research h...
The biochemistry of all living organisms uses complex, enzyme-catalyzed metabolic reaction networks....
Self-sustaining autocatalytic networks play a central role in living systems, from metabolism at the...
Metabolism constitutes the core chemistry of life. How it began on the early Earth and whether it ha...
The idea that chemical evolution led to the origin of life is not new, but still leaves open the que...